// Copyright (C) 1985-1998 by Symantec
// Copyright (C) 2000-2009 by Digital Mars
// All Rights Reserved
// http://www.digitalmars.com
// Written by Walter Bright
/*
 * This source file is made available for personal use
 * only. The license is in /dmd/src/dmd/backendlicense.txt
 * For any other uses, please contact Digital Mars.
 */

#if !SPP

#include	<stdio.h>
#include	<string.h>
#include	<time.h>
#include	"cc.h"
#include	"oper.h"
#include	"global.h"
#include	"el.h"
#include	"dt.h"
#include	"code.h"
#include	"type.h"

static char __file__[] = __FILE__;	/* for tassert.h		*/
#include	"tassert.h"

STATIC elem * optelem(elem *,HINT);
STATIC elem * elarray(elem *e);
STATIC elem * eldiv(elem *);

CEXTERN elem * evalu8(elem *);

#if TX86
STATIC void sdconst(elem *);
extern targ_size_t dfuncptr();
#endif

#if TARGET_MAC
#define CHARMASK (0xFF)
#define SHORTMASK (0xFFFF)
#define LONGMASK (0xFFFFFFFF)

STATIC elem * elmin(elem *);
STATIC elem * elneg(elem *);
STATIC elem * elcomma(elem *);
STATIC elem * elmul(elem *);
#endif

static int expgoal;
static int again;
static int cgelem_goal;

/*****************************
 */

STATIC elem * cgel_lvalue(elem *e)
{   elem *e1;
    elem *e11;
    int op;

    //printf("cgel_lvalue()\n"); elem_print(e);
    e1 = e->E1;
    op = e->Eoper;
    if (e1->Eoper == OPbit)
    {
	e11 = e1->E1;

	if (e11->Eoper == OPcomma)
	{
	    // Replace (((e,v) bit x) op e2) with (e,((v bit x) op e2))
	    e1->E1 = e11->E2;
	    e11->E2 = e;
	    e11->Ety = e->Ety;
	    e11->Enumbytes = e->Enumbytes;
	    e = e11;
	    goto L1;
	}
	else if (OTassign(e11->Eoper))
	{
	    // Replace (((e op= v) bit x) op e2) with ((e op= v) , ((e bit x) op e2))
	    e1->E1 = el_copytree(e11->E1);
	    e = el_bin(OPcomma,e->Ety,e11,e);
	    goto L1;
	}
    }
    else if (e1->Eoper == OPcomma)
    {
	// Replace ((e,v) op e2) with (e,(v op e2))
	e->Eoper = OPcomma;
	e1->Eoper = op;
	e1->Ety = e->Ety;
	e1->Enumbytes = e->Enumbytes;
	e->E1 = e1->E1;
	e1->E1 = e1->E2;
	e1->E2 = e->E2;
	e->E2 = e1;
	goto L1;
    }
    else if (OTassign(e1->Eoper))
    {
	// Replace ((e op= v) op e2) with ((e op= v) , (e op e2))
	e->E1 = el_copytree(e1->E1);
	e = el_bin(OPcomma,e->Ety,e1,e);
    L1:
	e = optelem(e,TRUE);
    }
    return e;
}


/******************************
 * Scan down commas.
 */

STATIC elem * elscancommas(elem *e)
{
    while (e->Eoper == OPcomma
#if SCPP
	   || e->Eoper == OPinfo
#endif
	  )
	e = e->E2;
    return e;
}

/*************************
 * Return TRUE if elem is the constant 1.
 */

int elemisone(elem *e)
{
    if (e->Eoper == OPconst)
    {	switch (tybasic(e->Ety))
	{
	    case TYchar:
	    case TYuchar:
	    case TYschar:
	    case TYshort:
	    case TYushort:
	    case TYint:
	    case TYuint:
	    case TYlong:
	    case TYulong:
	    case TYllong:
	    case TYullong:
#if TX86
#if JHANDLE
	    case TYjhandle:
#endif
	    case TYnptr:
	    case TYsptr:
	    case TYcptr:
	    case TYhptr:
#endif
	    case TYfptr:
	    case TYvptr:
	    case TYbool:
	    case TYwchar_t:
	    case TYdchar:
		if (el_tolong(e) != 1)
		    goto nomatch;
		break;
	    case TYldouble:
	    case TYildouble:
	    T68000(case TYcomp:)
		if (e->EV.Vldouble != 1)
		    goto nomatch;
		break;
	    case TYdouble:
	    case TYidouble:
	    case TYdouble_alias:
#if HOST_THINK
		if (PCrel_option & PC_THINKC_DBL) {
		    if (e->EV.Vldouble != 1)
			goto nomatch;
		    break;
		}
		// - fall through -
#endif
		if (e->EV.Vdouble != 1)
			goto nomatch;
		break;
	    case TYfloat:
	    case TYifloat:
		if (e->EV.Vfloat != 1)
			goto nomatch;
		break;
	    default:
		goto nomatch;
	}
	return TRUE;
    }

nomatch:
    return FALSE;
}

/*************************
 * Return TRUE if elem is the constant -1.
 */

int elemisnegone(elem *e)
{
    if (e->Eoper == OPconst)
    {	switch (tybasic(e->Ety))
	{
	    case TYchar:
	    case TYuchar:
	    case TYschar:
	    case TYshort:
	    case TYushort:
	    case TYint:
	    case TYuint:
	    case TYlong:
	    case TYulong:
	    case TYllong:
	    case TYullong:
#if TX86
#if JHANDLE
	    case TYjhandle:
#endif
	    case TYnptr:
	    case TYsptr:
	    case TYcptr:
	    case TYhptr:
#endif
	    case TYfptr:
	    case TYvptr:
	    case TYbool:
	    case TYwchar_t:
	    case TYdchar:
		if (el_tolong(e) != -1)
		    goto nomatch;
		break;
	    case TYldouble:
	    //case TYildouble:
	    T68000(case TYcomp:)
		if (e->EV.Vldouble != -1)
		    goto nomatch;
		break;
	    case TYdouble:
	    //case TYidouble:
	    case TYdouble_alias:
#if HOST_THINK
		if (PCrel_option & PC_THINKC_DBL) {
		    if (e->EV.Vldouble != -1)
			goto nomatch;
		    break;
		}
		// - fall through -
#endif
		if (e->EV.Vdouble != -1)
			goto nomatch;
		break;
	    case TYfloat:
	    //case TYifloat:
		if (e->EV.Vfloat != -1)
			goto nomatch;
		break;
	    default:
		goto nomatch;
	}
	return TRUE;
    }

nomatch:
    return FALSE;
}

/**********************************
 * Swap relational operators (like if we swapped the leaves).
 */

unsigned swaprel(unsigned op)
{
    assert(op < (unsigned) OPMAX);
    if (OTrel(op))
	op = rel_swap(op);
    return op;
}

/**************************
 * Replace e1 by t=e1, replace e2 by t.
 */

STATIC void fixside(elem **pe1,elem **pe2)
{ tym_t tym;
  elem *tmp,*e2;

  tym = (*pe1)->Ety;
  tmp = el_alloctmp(tym);
  *pe1 = el_bin(OPeq,tym,tmp,*pe1);
  e2 = el_copytree(tmp);
  el_free(*pe2);
  *pe2 = e2;
}



/****************************
 * Compute the 'cost' of evaluating a elem. Could be done
 * as Sethi-Ullman numbers, but that ain't worth the bother.
 * We'll fake it.
 */

#define cost(n)	(opcost[n->Eoper])

/*******************************
 * For floating point expressions, the cost would be the number
 * of registers in the FPU stack needed.
 */

int fcost(elem *e)
{
    int cost;
    int cost1;
    int cost2;

    //printf("fcost()\n");
    switch (e->Eoper)
    {
	case OPadd:
	case OPmin:
	case OPmul:
	case OPdiv:
	    cost1 = fcost(e->E1);
	    cost2 = fcost(e->E2);
	    cost = cost2 + 1;
	    if (cost1 > cost)
		cost = cost1;
	    break;

	case OPcall:
	case OPucall:
	    cost = 8;
	    break;

	case OPneg:
	case OPabs:
	    return fcost(e->E1);

	case OPvar:
	case OPconst:
	case OPind:
	default:
	    return 1;
    }
    if (cost > 8)
	cost = 8;
    return cost;
}

/*******************************
 * The lvalue of an op= is a conversion operator. Since the code
 * generator cannot handle this, we will have to fix it here. The
 * general strategy is:
 *	(conv) e1 op= e2	=>	e1 = (conv) e1 op e2
 * Since e1 can only be evaluated once, if it is an expression we
 * must use a temporary.
 */

STATIC elem *fixconvop(elem *e)
{	elem *e1,*e2,*ed,*T;
	elem *ex;
	elem **pe;
	unsigned cop,icop,op;
	tym_t tycop,tym,tyme;
	static char invconvtab[] =
	{
#if TX86
		OPbool,		// OPb_8
		OPs32_d,	// OPd_s32
		OPd_s32,	// OPs32_d
		OPs16_d,	/* OPd_s16	*/
		OPd_s16,	/* OPs16_d	*/
		OPu16_d,	/* OPdbluns	*/
		OPdbluns,	/* OPu16_d	*/
		OPu32_d,	/* OPd_u32	*/
		OPd_u32,	/* OPu32_d	*/
		OPs64_d,	// OPd_s64
		OPd_s64,	// OPs64_d
		OPu64_d,	// OPd_u64
		OPd_u64,	// OPu64_d
		OPf_d,		// OPd_f
		OPd_f,		// OPf_d
		0,		/* OPvptrfptr	*/
		0,		/* OPcvptrfptr	*/
		OPlngsht,	/* OPshtlng	*/
		OPlngsht,	/* OPu16_32	*/
		OPshtlng,	/* OPlngsht	*/
		OPint8,		/* OPu8int	*/
		OPint8,		/* OPs8int	*/
		OPs8int,	/* OPint8	*/
		OP64_32,	// OPulngllng
		OP64_32,	// OPlngllng
		OPlngllng,	// OP64_32
		OPptrlptr,	/* OPoffset	*/
		OPoffset,	/* OPptrlptr	*/
		OPfromfar16,	/* OPtofar16	*/
		OPtofar16,	/* OPfromfar16	*/
		OPd_ld,		// OPld_d
		OPld_d,		// OPd_ld
		OPu64_d,	// OPld_u64
#else
	TARGET_INVERS_CONV
#endif
	};

//dbg_printf("fixconvop before\n");
//elem_print(e);
	assert(arraysize(invconvtab) == CNVOPMAX - CNVOPMIN + 1);
	assert(e);
	tyme = e->Ety;
	cop = e->E1->Eoper;		/* the conversion operator	*/
	assert(cop <= CNVOPMAX);

	if (e->E1->E1->Eoper == OPcomma)
	{   /* conv(a,b) op= e2
	     *   =>
	     * a, (conv(b) op= e2)
	     */
	    elem *ecomma = e->E1->E1;
	    e->E1->E1 = ecomma->E2;
	    e->E1->E1->Ety = ecomma->Ety;
	    ecomma->E2 = e;
	    ecomma->Ety = e->Ety;
	    return optelem(ecomma, TRUE);
	}

	tycop = e->E1->Ety;
	tym = e->E1->E1->Ety;
	e->E1 = el_selecte1(e->E1);	/* dump it for now		*/
	e1 = e->E1;
	e1->Ety = tym;
	e2 = e->E2;
	assert(e1 && e2);
	/* select inverse conversion operator	*/
	icop = invconvtab[convidx(cop)];

	/* First, let's see if we can just throw it away.	*/
	/* (unslng or shtlng) e op= e2	=> e op= (lngsht) e2	*/
	if (OTwid(e->Eoper) &&
		(cop == OPshtlng || cop == OPu16_32 ||
		 cop == OPu8int || cop == OPs8int))
	{   if (e->Eoper != OPshlass && e->Eoper != OPshrass)
		e->E2 = el_una(icop,tym,e2);
//dbg_printf("after1\n");
//elem_print(e);
	    return e;
	}

	/* Oh well, just split up the op and the =.			*/
	op = opeqtoop(e->Eoper);	/* convert op= to op		*/
	e->Eoper = OPeq;		/* just plain =			*/
	ed = el_copytree(e1);		/* duplicate e1			*/
					/* make: e1 = (icop) ((cop) ed op e2)*/
	e->E2 = el_una(icop,e1->Ety,
				 el_bin(op,tycop,el_una(cop,tycop,ed),
						      e2));

	if (op == OPdiv &&
	    tybasic(e2->Ety) == TYcdouble)
	{
	    if (tycop == TYdouble)
	    {
		e->E2->E1->Ety = tybasic(e2->Ety);
		e->E2->E1 = el_una(OPc_r, tycop, e->E2->E1);
	    }
	    else if (tycop == TYidouble)
	    {
		e->E2->E1->Ety = tybasic(e2->Ety);
		e->E2->E1 = el_una(OPc_i, tycop, e->E2->E1);
	    }
	}

	if (op == OPdiv &&
	    tybasic(e2->Ety) == TYcfloat)
	{
	    if (tycop == TYfloat)
	    {
		e->E2->E1->Ety = tybasic(e2->Ety);
		e->E2->E1 = el_una(OPc_r, tycop, e->E2->E1);
	    }
	    else if (tycop == TYifloat)
	    {
		e->E2->E1->Ety = tybasic(e2->Ety);
		e->E2->E1 = el_una(OPc_i, tycop, e->E2->E1);
	    }
	}

	/* Handle case of multiple conversion operators on lvalue	*/
	/* (such as (intdbl 8int char += double))			*/
	ex = e;
	pe = &e;
	while (OTconv(ed->Eoper))
	{   unsigned copx = ed->Eoper;
	    tym_t tymx;

	    icop = invconvtab[convidx(copx)];
	    tymx = ex->E1->E1->Ety;
	    ex->E1 = el_selecte1(ex->E1);	// dump it for now
	    e1 = ex->E1;
	    e1->Ety = tymx;
	    ex->E2 = el_una(icop,e1->Ety,ex->E2);
	    ex->Ety = tymx;

	    *pe = el_una(copx, ed->Ety, ex);
	    pe = &(*pe)->E1;

	    ed = ed->E1;
	}

	e->Ety = tym;
	if (tym != tyme &&
	    !(tyintegral(tym) && tyintegral(tyme) && tysize(tym) == tysize(tyme)))
	    e = el_una(cop, tyme, e);

	if (ed->Eoper == OPbit)		/* special handling		*/
	{
		ed = ed->E1;
		e1 = e1->E1;		/* go down one			*/
	}
	/* If we have a *, must assign a temporary to the expression	*/
	/* underneath it (even if it's a var, as e2 may modify the var). */
	if (ed->Eoper == OPind)
	{	T = el_alloctmp(ed->E1->Ety); /* make temporary		*/
		ed->E1 = el_bin(OPeq,T->Ety,T,ed->E1); /* ed: *(T=e)	*/
		el_free(e1->E1);
		e1->E1 = el_copytree(T);
	}
//dbg_printf("after2\n");
//elem_print(e);
	return e;
}

STATIC elem * elerr(elem *e)
{
#ifdef DEBUG
    elem_print(e);
#endif
    assert(0); 
    return (elem *)NULL;
}

/* For ops with no optimizations */

STATIC elem * elzot(elem *e)
{ return e; }

/****************************
 */

STATIC elem * elstring(elem *e)
{
#if 0 // now handled by el_convert()
    if (!OPTIMIZER)
	el_convstring(e);	// convert string to OPrelconst
#endif
    return e;
}

/************************
 */

#if (TARGET_POWERPC)

STATIC elem * elmemconst(elem *e)
{
    tym_t	tym;

    assert(e->Eoper == OPconst);
    tym = tybasic(typemask(e));
    if (tyfloating(tym))
    {
	el_convconst(e);	// convert float | double consts to OPrelconst
    }
    return e;
}

#endif

#if TX86

/************************
 * Convert far pointer to pointer.
 */

STATIC void eltonear(elem **pe)
{   tym_t ty;
    elem *e = *pe;

    ty = e->E1->Ety;
    e = el_selecte1(e);
    e->Ety = ty;
    *pe = optelem(e,TRUE);
}

/************************
 */

STATIC elem * elstrcpy(elem *e)
{   tym_t ty;

    elem_debug(e);
    switch (e->E2->Eoper)
    {
#if TX86
	case OPptrlptr:
	    if (OPTIMIZER)
	    {
		eltonear(&e->E2);
		e = optelem(e,TRUE);
	    }
	    break;
#endif
	case OPstring:
	    /* Replace strcpy(e1,"string") with memcpy(e1,"string",sizeof("string")) */
	    e->Eoper = OPstreq;
	    e->Enumbytes = strlen(e->E2->EV.ss.Vstring) + 1;
	    e->E1 = el_una(OPind,TYstruct,e->E1);
	    e->E2 = el_una(OPind,TYstruct,e->E2);

	    e = el_bin(OPcomma,e->Ety,e,el_copytree(e->E1->E1));
	    if (el_sideeffect(e->E2))
		fixside(&e->E1->E1->E1,&e->E2);
	    e = optelem(e,TRUE);
	    break;
    }
    return e;
}

/************************
 */

STATIC elem * elstrcmp(elem *e)
{
    elem_debug(e);
    if (OPTIMIZER)
    {
	if (e->E1->Eoper == OPptrlptr)
	    eltonear(&e->E1);
	switch (e->E2->Eoper)
	{
	    case OPptrlptr:
		eltonear(&e->E2);
		break;

	    case OPstring:
		// Replace strcmp(e1,"string") with memcmp(e1,"string",sizeof("string"))
		e->Eoper = OPparam;
		e = el_bin(OPmemcmp,e->Ety,e,el_long(TYint,strlen(e->E2->EV.ss.Vstring) + 1));
		e = optelem(e,TRUE);
		break;
	}
    }
    return e;
}

/****************************
 * For OPmemcmp, OPmemcpy, OPmemset.
 */

STATIC elem * elmemxxx(elem *e)
{
    elem_debug(e);
    if (OPTIMIZER)
    {	elem *ex;

	ex = e->E1;
	switch (e->Eoper)
	{   case OPmemcmp:
		if (ex->E1->Eoper == OPptrlptr)
		    eltonear(&ex->E1);
		if (ex->E2->Eoper == OPptrlptr)
		    eltonear(&ex->E2);
		break;

	    case OPmemset:
		if (ex->Eoper == OPptrlptr)
		    eltonear(&ex);
		else
		{
		    // lvalue OPmemset (nbytes param value)
		    elem *enbytes = e->E2->E1;
		    elem *evalue = e->E2->E2;

#if MARS && (TX86 || TARGET_68K)
		    if (enbytes->Eoper == OPconst && evalue->Eoper == OPconst
			/* && tybasic(e->E1->Ety) == TYstruct*/)
		    {	tym_t tym;
			tym_t ety;
			int nbytes = el_tolong(enbytes);
			targ_llong value = el_tolong(evalue);
			elem *e1 = e->E1;
			elem *tmp;

			if (e1->Eoper == OPcomma || OTassign(e1->Eoper))
			    return cgel_lvalue(e);    // replace (e,v)op=e2 with e,(v op= e2)

			switch (nbytes)
			{
			    case CHARSIZE:	tym = TYchar;	goto L1;
			    case SHORTSIZE:	tym = TYshort; 	goto L1;
			    case LONGSIZE:	tym = TYlong;	goto L1;
#if LONGLONG
			    case LLONGSIZE:	if (intsize == 2)
						    goto Ldefault;
						tym = TYllong;	goto L1;
#endif
			    L1:
				ety = e->Ety;
				memset(&value, value & 0xFF, sizeof(value));
				evalue->EV.Vullong = value;
				evalue->Ety = tym;
				e->Eoper = OPeq;
				e->Ety = (e->Ety & ~mTYbasic) | tym;
				if (tybasic(e1->Ety) == TYstruct)
				    e1->Ety = tym;
				else
				    e->E1 = el_una(OPind, tym, e1);
				tmp = el_same(&e->E1);
				tmp = el_una(OPaddr, ety, tmp);
				e->E2->Ety = tym;
				e->E2 = el_selecte2(e->E2);
				e = el_combine(e, tmp);
				e = optelem(e,TRUE);
				break;

			    default:
			    Ldefault:
				break;
			}
		    }
#endif
		}
		break;

	    case OPmemcpy:
		if (ex->Eoper == OPptrlptr)
		    eltonear(&e->E1);
		ex = e->E2;
		if (ex->E1->Eoper == OPptrlptr)
		    eltonear(&ex->E1);
		if (ex->E2->Eoper == OPconst)
		{   // Convert OPmemcpy to OPstreq
		    e->Eoper = OPstreq;
		    e->Enumbytes = el_tolong(ex->E2);
		    e->E1 = el_una(OPind,TYstruct,e->E1);
		    e->E2 = el_una(OPind,TYstruct,ex->E1);
		    ex->E1 = NULL;
		    el_free(ex);
		    ex = el_copytree(e->E1->E1);
		    if (tysize(e->Ety) > tysize(ex->Ety))
			ex = el_una(OPptrlptr,e->Ety,ex);
		    e = el_bin(OPcomma,e->Ety,e,ex);
		    if (el_sideeffect(e->E2))
			fixside(&e->E1->E1->E1,&e->E2);
		    return optelem(e,TRUE);
		}
		break;

	    default:
		assert(0);
	}
    }
    return e;
}

#endif

/***********************
 *	  +		#	(combine offsets with addresses)
 *	 / \	=>	|
 *	#   c	       v,c
 *	|
 *	v
 */

STATIC elem * eladd(elem *e)
{ elem *e1,*e2;
  int sz;

  //printf("eladd(%p)\n",e);
L1:
  e1 = e->E1;
  e2 = e->E2;
  if (e2->Eoper == OPconst)
  {
#if TARGET_LINUX || TARGET_OSX
	if (e1->Eoper == OPrelconst && e1->EV.sp.Vsym->Sfl == FLgot)
		goto ret;
#endif
	if (e1->Eoper == OPrelconst		/* if (&v) + c		*/
	    || e1->Eoper == OPstring
	   )
	{
		e1->EV.sp.Voffset += e2->EV.Vuns;
		e = el_selecte1(e);
		goto ret;
	}
  }
  else if (e1->Eoper == OPconst)
  {
#if TARGET_LINUX || TARGET_OSX
	if (e2->Eoper == OPrelconst && e2->EV.sp.Vsym->Sfl == FLgot)
		goto ret;
#endif
	if (e2->Eoper == OPrelconst		/* if c + (&v)		*/
	    || e2->Eoper == OPstring
	   )
	{
		e2->EV.sp.Voffset += e1->EV.Vuns;
		e = el_selecte2(e);
		goto ret;
	}
  }

  if (!OPTIMIZER)
	goto ret;

  /* Replace ((e + &v) + c) with (e + (&v+c))	*/
  if (e2->Eoper == OPconst && e1->Eoper == OPadd &&
	(e1->E2->Eoper == OPrelconst || e1->E2->Eoper == OPstring))
  {
	e1->E2->EV.sp.Voffset += e2->EV.Vuns;
	e = el_selecte1(e);
	goto L1;
  }
  /* Replace ((e + c) + &v) with (e + (&v+c))	*/
  else if ((e2->Eoper == OPrelconst || e2->Eoper == OPstring) &&
	   e1->Eoper == OPadd && cnst(e1->E2))
  {
	e2->EV.sp.Voffset += e1->E2->EV.Vuns;
	e->E1 = el_selecte1(e1);
	goto L1;			/* try and find some more	*/
  }
  /* Replace (e1 + -e) with (e1 - e)	*/
  else if (e2->Eoper == OPneg)
  {	e->E2 = el_selecte1(e2);
	e->Eoper = OPmin;
#if TX86
	again = 1;
	return e;
#else
	return elmin(e);
	//return optelem(e,TRUE);
#endif
  }
  /* Replace (-v + e) with (e + -v)	*/
  else if (e1->Eoper == OPneg && OTleaf(e1->E1->Eoper))
  {	e->E1 = e2;
	e->E2 = e1;			/* swap leaves			*/
	goto L1;
  }
  /* Replace ((e - e2) + e2) with (e)			*/
  /* The optimizer sometimes generates this case	*/
  else if (!tyfloating(e->Ety) &&	/* no floating bugs		*/
	e1->Eoper == OPmin &&
	el_match(e1->E2,e2) &&
	!el_sideeffect(e2))
  {	tym_t tym = e->Ety;

	e = el_selecte1(el_selecte1(e));
	e->Ety = tym;			/* retain original type		*/
	return e;
  }
  /* Replace ((e - #v+c1) + #v+c2) with ((e - c1) + c2)	*/
  else if (e2->Eoper == OPrelconst &&
	   e1->Eoper == OPmin &&
	   e1->E2->Eoper == OPrelconst &&
	   e1->E2->EV.sp.Vsym == e2->EV.sp.Vsym)
  {	e2->Eoper = OPconst;
	e2->Ety = TYint;
	e1->Ety = e1->E1->Ety;
	e1->E2->Eoper = OPconst;
	e1->E2->Ety = TYint;
	{
#if TX86
	    /* Watch out for pointer types changing, requiring a conversion */
	    tym_t ety,e11ty;

	    ety = tybasic(e->Ety);
	    e11ty = tybasic(e1->E1->Ety);
	    if (typtr(ety) && typtr(e11ty) &&
		tysize[ety] != tysize[e11ty])
	    {
		e = el_una((tysize[ety] > tysize[e11ty]) ? OPptrlptr : OPoffset,
			    e->Ety,e);
		e->E1->Ety = e1->Ety;
		T68000(return optelem(e,TRUE);)
	    }
#endif
	}
#if TX86
	again = 1;
	return e;
#else
	goto L1;
	//return optelem(e,TRUE);
#endif
  }
  /* Replace (e + e) with (e * 2)	*/
  else if (el_match(e1,e2) && 
#if TARGET_MAC
	!(config.flags4 & CFG4space) &&
#endif
  		!el_sideeffect(e1) && !tyfloating(e->Ety))
  {
	e->Eoper = OPmul;
	el_free(e2);
	e->E2 = el_long(e->Ety,2);
#if TX86
	again = 1;
	return e;
#else
	return elmul(e);
	//return optelem(e,TRUE);
#endif
  }
  // Replace ((e11 + c) + e2) with ((e11 + e2) + c)
  if (e1->Eoper == OPadd && e1->E2->Eoper == OPconst &&
      (e2->Eoper == OPvar || !OTleaf(e2->Eoper)) &&
      tysize(e1->Ety) == tysize(e2->Ety) &&
      tysize(e1->E2->Ety) == tysize(e2->Ety))
  {
	e->E2 = e1->E2;
	e1->E2 = e2;
	e1->Ety = e->Ety;
	goto ret;
  }

    // Replace ((e11 - e12) + e2) with ((e11 + e2) - e12)
    // (this should increase the number of LEA possibilities)
    sz = tysize(e->Ety);
    if (e1->Eoper == OPmin &&
	tysize(e1->Ety) == sz &&
	tysize(e2->Ety) == sz &&
	tysize(e1->E1->Ety) == sz &&
	tysize(e1->E2->Ety) == sz &&
	!tyfloating(e->Ety)
       )
    {
	e->Eoper = OPmin;
	e->E2 = e1->E2;
	e1->E2 = e2;
	e1->Eoper = OPadd;
    }

ret:

#if TARGET_MAC
  if (!OPTIMIZER && e->Eoper == OPrelconst && el_fl(e) == FLoffset && e->EV.ss.Voffset)
      {
      e->EV.ss.Vstrid += e->EV.ss.Voffset;
      e->EV.ss.Voffset = 0;
      }

#endif
  return e;
}


/************************
 * Multiply (for OPmul && OPmulass)
 *	e * (c**2) => e << c	;replace multiply by power of 2 with shift
 */

STATIC elem * elmul(elem *e)
{ elem *e2;
  tym_t tym;

  e2 = e->E2;
  tym = e->Ety;
  if (e2->Eoper == OPconst)		/* try to replace multiplies with shifts */
  {
	if (OPTIMIZER)
	{
	    elem *e1 = e->E1;
	    unsigned op1 = e1->Eoper;

	    if (tyintegral(tym) &&		// skip floating types
		OTbinary(op1) &&
		e1->E2->Eoper == OPconst
	       )
	    {
		/* Attempt to replace ((e + c1) * c2) with (e * c2 + (c1 * c2))
		 * because the + can be frequently folded out (merged into an
		 * array offset, for example.
		 */
		if (op1 == OPadd)
		{
		    e->Eoper = OPadd;
		    e1->Eoper = OPmul;
		    e->E2 = el_bin(OPmul,tym,e1->E2,e2);
		    e1->E2 = el_copytree(e2);
#if TX86
		    again = 1;
		    return e;
#else
		    return eladd(e);
#endif
		}

		// ((e << c1) * c2) => e * ((1 << c1) * c2)
		if (op1 == OPshl)
		{
		    e2->EV.Vullong *= (targ_ullong)1 << el_tolong(e1->E2);
		    e1->E2->EV.Vullong = 0;
		    again = 1;
		    return e;
		}
	    }

	    if (elemisnegone(e2))
	    {
		e->Eoper = (e->Eoper == OPmul) ? OPneg : OPnegass;
		e->E2 = NULL;
		el_free(e2);
		return e;
	    }
	}

	if (tyintegral(tym))
	{   int i;

	    i = ispow2(el_tolong(e2));		/* check for power of 2	*/
	    if (i != -1)			/* if it is a power of 2 */
	    {	e2->EV.Vint = i;
		e2->Ety = TYint;
		e->Eoper = (e->Eoper == OPmul)	/* convert to shift left */
			? OPshl : OPshlass;
		again = 1;
		return e;
	    }
	    else if (el_allbits(e2,-1))
		goto Lneg;
	}
	else if (elemisnegone(e2) && !tycomplex(e->E1->Ety))
	{
	    goto Lneg;
	}
  }
#if TARGET_MAC
	if (!OPTIMIZER && (e->E1->Eoper == OPshtlng || e->E1->Eoper == OPu16_32) &&
	    (e2->Eoper == OPshtlng || e2->Eoper == OPu16_32))
	{
	    tym = e->E1->E1->Ety;
	    e->E1 = el_selecte1(e->E1);
	    e->E1->Ety = tym;
	    tym = e->E2->E1->Ety;
	    e->E2 = el_selecte1(e2);
	    e->E2->Ety = tym;
	}
#endif
    return e;

Lneg:
    e->Eoper = (e->Eoper == OPmul)	/* convert to negate */
	    ? OPneg : OPnegass;
    el_free(e->E2);
    e->E2 = NULL;
    again = 1;
    return e;
}

/************************
 * Subtract
 *	  -		  +
 *	 / \	=>	 / \		(propagate minuses)
 *	e   c		e   -c
 */

STATIC elem * elmin(elem *e)
{ elem *e2;

L1:
  e2 = e->E2;

  if (OPTIMIZER)
  {
  elem *e1;
  tym_t tym;
  
  tym = e->Ety;
  e1 = e->E1;
  if (e2->Eoper == OPrelconst)
  {	if (e1->Eoper == OPrelconst && e1->EV.sp.Vsym == e2->EV.sp.Vsym)
	{	e->Eoper = OPconst;
		e->EV.Vint = e1->EV.sp.Voffset - e2->EV.sp.Voffset;
		el_free(e1);
		el_free(e2);
#if TARGET_MAC
		e->Ety = TYlong;
#endif
		return e;
	}
  }

  /* Convert subtraction of long pointers to subtraction of integers	*/
  if (tyfv(e2->Ety) && tyfv(e1->Ety))
#if TX86
  {	e->E1 = el_una(OPlngsht,tym,e1);
	e->E2 = el_una(OPlngsht,tym,e2);
#if TX86
	return optelem(e,TRUE);
#else
	goto L1;
	//return optelem(e,TRUE);
#endif
  }
#else
  {
  	e->E1->Ety = TYlong;
	e->E2->Ety = TYlong;
	e->Ety = TYlong;
#if TX86
	return optelem(e,TRUE);
#else
	goto L1;
	//return optelem(e,TRUE);
#endif
  }
#endif
  

  /* Replace (0 - e2) with (-e2)	*/
  if (cnst(e1) && !boolres(e1))
  {	el_free(e1);
	e->E1 = e2;
	e->E2 = NULL;
	e->Eoper = OPneg;
#if TX86
	return optelem(e,TRUE);
#else
	return elneg(e);
	//return optelem(e,TRUE);
#endif
  }

  /* Replace (e - e) with (0)	*/
  if (el_match(e1,e2) && !el_sideeffect(e1))
  {	el_free(e);
	e = el_calloc();
	e->Eoper = OPconst;
	e->Ety = tym;
	return e;
  }

  /* Replace (e1 + c1) - (e2 + c2) with (e1 - e2) + (c1 - c2), but not	*/
  /* for floating or far or huge pointers!				*/
  if (e1->Eoper == OPadd && e2->Eoper == OPadd &&
      cnst(e1->E2) && cnst(e2->E2) &&
      (tyintegral(tym) T80x86(|| tybasic(tym) == TYjhandle || tybasic(tym) == TYnptr || tybasic(tym) == TYsptr) ))
  {	elem *tmp;

	e->Eoper = OPadd;
	e1->Eoper = OPmin;
	e2->Eoper = OPmin;
	tmp = e1->E2;
	e1->E2 = e2->E1;
	e2->E1 = tmp;
#if TX86
	return optelem(e,TRUE);
#else
	return eladd(e);
	//return optelem(e,TRUE);
#endif
  }
  }

#if TX86 && !(MARS)
    if (tybasic(e2->Ety) == TYhptr && tybasic(e->E1->Ety) == TYhptr)
    {	// Convert to _aNahdiff(e1,e2)
	static symbol hdiff = SYMBOLY(FLfunc,mBX|mCX|mSI|mDI|mBP|mES,"_aNahdiff",0);

	if (LARGECODE)
	    hdiff.Sident[2] = 'F';
	hdiff.Stype = tsclib;
	e->Eoper = OPcall;
	e->E2 = el_bin(OPparam,TYint,e2,e->E1);
	e->E1 = el_var(&hdiff);
	return e;
    }
#endif

  /* Disallow the optimization on doubles. The - operator is not	*/
  /* rearrangable by K+R, and can cause floating point problems if	*/
  /* converted to an add ((a + 1.0) - 1.0 shouldn't be folded).		*/
  if (cnst(e2) && !tyfloating(e2->Ety))
  {	e->E2 = el_una(OPneg,e2->Ety,e2);
	e->Eoper = OPadd;
	return optelem(e,TRUE);
  }
  return e;
}

/*****************************
 * Attempt to 'shrink' bitwise expressions.
 * Good for & | ^.
 * This should be expanded to include long type stuff.
 */

STATIC elem * elbitwise(elem *e)
{   elem *e1,*e2;
    targ_short i;
    targ_ulong ul;
    int op;
    unsigned sz;

    e2 = e->E2;
    e1 = e->E1;
    op = e1->Eoper;
    if (e2->Eoper == OPconst)
    {
	sz = tysize(e2->Ety);
	switch (sz)
	{
	    tym_t tym;
	    case CHARSIZE:
		/* Replace (c & 0xFF) with (c)	*/
		if (OPTIMIZER && e2->EV.Vuchar == CHARMASK)
		{
		L1:
		    switch (e->Eoper)
		    {   case OPand:	/* (c & 0xFF) => (c)	*/
			    return el_selecte1(e);
			case OPor:	/* (c | 0xFF) => (0xFF)	*/
			    return el_selecte2(e);
			case OPxor:	/* (c ^ 0xFF) => (~c)	*/
			    tym = e->Ety;
			    return el_una(OPcom,tym,el_selecte1(e));
			default:
			    assert(0);
		    }
		}
		break;

	    case LONGSIZE:
		if (!OPTIMIZER)
		    break;
		ul = e2->EV.Vulong;

		if (ul == 0xFFFFFFFF)		/* if e1 & 0xFFFFFFFF	*/
		    goto L1;
		/* (x >> 16) & 0xFFFF => ((unsigned long)x >> 16)	*/
		if (ul == 0xFFFF && e->Eoper == OPand && op == OPshr &&
		    e1->E2->Eoper == OPconst && el_tolong(e1->E2) == 16)
		{   elem *e11 = e1->E1;

		    e11->Ety = touns(e11->Ety) | (e11->Ety & ~mTYbasic);
		    goto L1;
		}

		/* Replace (L & 0x0000XXXX) with (unslng)((lngsht) & 0xXXXX) */
		if (intsize < LONGSIZE &&
		    e->Eoper == OPand &&
		    ul <= SHORTMASK)
		{	tym = e->Ety;
			e->E1 = el_una(OPlngsht,TYushort,e->E1);
			e->E2 = el_una(OPlngsht,TYushort,e->E2);
			e->Ety = TYushort;
			e = el_una(OPu16_32,tym,e);
			goto Lopt;
		}

		// Replace ((s8sht)L & 0xFF) with (u8sht)L
		if (ul == 0xFF && intsize == LONGSIZE && e->Eoper == OPand &&
		    (op == OPs8int || op == OPu8int)
		   )
		{
		    e1->Eoper = OPu8int;
		    e = el_selecte1(e);
		    goto Lopt;
		}

#if TARGET_MAC
		e1 = e->E1;
		if (
		    (e1->Eoper == OPu16_32 && 	//OK unsigned if & or 0 sign ext
		     (e->Eoper == OPand || 			// &
		     (ul & 0xffff8000) == 0 ) 			// 0 sign extended
		    ) ||
		    (e1->Eoper == OPshtlng && 	//OK signed if ul is 'sign-extended'
		      ( (ul & 0xffff8000) == 0 || 		// 0 sign extended
		        (ul & 0xffff8000) == 0xffff8000))	// 1 sign extended
		   )
		{
			/* Convert ((unslng) e) & ul) to (unslng)(e & (lnguns) ul) */
			/* or similar for shtlng				     */
			e = el_una(e1->Eoper,e->Ety,e);
			e->E1->Ety = e1->Ety = e1->E1->Ety;
			e->E1->E1 = el_selecte1(e1);
			e->E1->E2 = el_una(OPlngsht,e->E1->Ety,e->E1->E2);
			goto Lopt;
		}
#endif
		break;

	    case SHORTSIZE:
		i = e2->EV.Vshort;
		if (i == (targ_short)SHORTMASK)	// e2 & 0xFFFF
		    goto L1;

		/* (x >> 8) & 0xFF => ((unsigned short)x >> 8)		*/
		if (OPTIMIZER && i == 0xFF && e->Eoper == OPand &&
		    op == OPshr && e1->E2->Eoper == OPconst && e1->E2->EV.Vint == 8)
		{   elem *e11 = e1->E1;

		    e11->Ety = touns(e11->Ety) | (e11->Ety & ~mTYbasic);
		    goto L1;
		}

		// (s8_16(e) & 0xFF) => u8_16(e)
		if (OPTIMIZER && op == OPs8_16 && e->Eoper == OPand &&
		    i == 0xFF)
		{
		    e1->Eoper = OPu8_16;
		    e = el_selecte1(e);
		    goto Lopt;
		}

		if (
		    /* OK for unsigned if AND or high bits of i are 0	*/
		    op == OPu8int && (e->Eoper == OPand || !(i & ~0xFF)) ||
		    /* OK for signed if i is 'sign-extended'	*/
		    op == OPs8int && (targ_short)(targ_schar)i == i
		   )
		{
			/* Convert ((u8int) e) & i) to (u8int)(e & (int8) i) */
			/* or similar for s8int				     */
			e = el_una(e1->Eoper,e->Ety,e);
			e->E1->Ety = e1->Ety = e1->E1->Ety;
			e->E1->E1 = el_selecte1(e1);
			e->E1->E2 = el_una(OPint8,e->E1->Ety,e->E1->E2);
			goto Lopt;
		}
		break;

#if __INTSIZE == 4
	    case LLONGSIZE:
		if (OPTIMIZER)
		{
		    if (e2->EV.Vullong == LLONGMASK)
			goto L1;
		}
		break;
#endif
	}
	if (OPTIMIZER)
	{   targ_ullong ul = el_tolong(e2);

	    if (e->Eoper == OPor && op == OPand && e1->E2->Eoper == OPconst)
	    {
		// ((x & c1) | c2) => (x | c2)
		targ_ullong c3;

		c3 = ul | e1->E2->EV.Vullong;
		switch (sz)
		{   case CHARSIZE:
			if ((c3 & CHARMASK) == CHARMASK)
			    goto L2;
			break;
		    case SHORTSIZE:
			if ((c3 & SHORTMASK) == SHORTMASK)
			    goto L2;
			break;
		    case LONGSIZE:
			if ((c3 & LONGMASK) == LONGMASK)
			{
			L2:
			    e1->E2->EV.Vullong = c3;
			    e->E1 = elbitwise(e1);
			    goto Lopt;
			}
			break;
#if __INTSIZE == 4
		    case LLONGSIZE:
			if ((c3 & LLONGMASK) == LLONGMASK)
			    goto L2;
			break;
#endif
		    default:
			assert(0);
		}
	    }

#if __INTSIZE == 4
	    if (op == OPshtlng  && (ul & 0xFFFFFFFFFFFF8000LL) == 0 ||
		op == OPu16_32 && (ul & 0xFFFFFFFFFFFF0000LL) == 0 ||
		op == OPs8int   && (ul & 0xFFFFFFFFFFFFFF80LL) == 0 ||
		op == OPu8int   && (ul & 0xFFFFFFFFFFFFFF00LL) == 0 ||
		op == OPlngllng && (ul & 0xFFFFFFFF80000000LL) == 0 ||
		op == OPulngllng&& (ul & 0xFFFFFFFF00000000LL) == 0
	       )
#else
	    if (op == OPshtlng  && (ul & 0xFFFF8000) == 0 ||
		op == OPu16_32 && (ul & 0xFFFF0000) == 0 ||
		op == OPs8int   && (ul & 0xFFFFFF80) == 0 ||
		op == OPu8int   && (ul & 0xFFFFFF00) == 0)
#endif
	    {
		if (e->Eoper == OPand)
		{   if (op == OPshtlng && (ul & 0x8000) == 0)
			e1->Eoper = OPu16_32;
		    else if (op == OPs8int  && (ul & 0x80) == 0)
			e1->Eoper = OPu8int;
#if __INTSIZE == 4
		    else if (op == OPlngllng  && (ul & 0x80000000) == 0)
			e1->Eoper = OPulngllng;
#endif
		}

		// ((shtlng)s & c) => ((shtlng)(s & c)
		e1->Ety = e->Ety;
		e->Ety = e2->Ety = e1->E1->Ety;
		e->E1 = e1->E1;
		e1->E1 = e;
		e = e1;
		goto Lopt;
	    }

	    // Replace (((a & b) ^ c) & d) with ((a ^ c) & e), where
	    // e is (b&d).
	    if (e->Eoper == OPand && op == OPxor && e1->E1->Eoper == OPand &&
		e1->E1->E2->Eoper == OPconst)
	    {
		e2->EV.Vullong &= e1->E1->E2->EV.Vullong;
		e1->E1 = el_selecte1(e1->E1);
		goto Lopt;
	    }
	}
    }
    return e;

Lopt:
#ifdef DEBUG
    static int nest;
    nest++;
    if (nest > 100)
    {	elem_print(e);
	assert(0);
    }
    e = optelem(e,TRUE);
    nest--;
    return e;
#endif
    return optelem(e,TRUE);
}

/**************************
 * Optimize nots.
 *	! ! e => bool e
 *	! bool e => ! e
 *	! OTrel => !OTrel	(invert the condition)
 *	! OTconv => !
 */

STATIC elem * elnot(elem *e)
{ elem *e1;
  unsigned op;

  e1 = e->E1;
  op = e1->Eoper;
  switch (op)
  {	case OPnot:			// ! ! e => bool e
	case OPbool:			// ! bool e => ! e
	    e1->Eoper = op ^ (OPbool ^ OPnot);
	    /* That was a clever substitute for the following:	*/
	    /* e->Eoper = (op == OPnot) ? OPbool : OPnot;		*/
	    goto L1;

	default:
	    if (OTrel(op))			/* ! OTrel => !OTrel		*/
	    {
		  /* Find the logical negation of the operator	*/
		  op = rel_not(op);
		  if (!tyfloating(e1->E1->Ety)
#if TARGET_68K
				T68000(|| !config.inline68881)
#endif
		     )
		  {   op = rel_integral(op);
		      assert(OTrel(op));
		  }
		  e1->Eoper = op;

	    L1:	e = optelem(el_selecte1(e),TRUE);
	    }
	    else if (tybasic(e1->Ety) == TYbool && tysize(e->Ety) == 1)
	    {
		// !e1 => (e1 ^ 1)
		e->Eoper = OPxor;
		e->E2 = el_long(e1->Ety,1);
		e = optelem(e,TRUE);
	    }
#if 0
// Can't use this because what if OPd_s32?
// Note: !(long)(.1) != !(.1)
	    else if (OTconv(op))	// don't use case because of differ target
	    {				// conversion operators
		e1->Eoper = e->Eoper;
#if TARGET_MAC
		e1->Ety = e->Ety;
#endif
		goto L1;
	    }
#endif
	    break;

	case OPs32_d:
	case OPs16_d:
	case OPu16_d:
	case OPu32_d:
	case OPf_d:
	case OPvptrfptr:
	case OPcvptrfptr:
	case OPshtlng:
	case OPu16_32:
	case OPu8int:
	case OPs8int:
	case OPulngllng:
	case OPlngllng:
	case OPptrlptr:
	    e1->Eoper = e->Eoper;
	    goto L1;

	case OPcomma:
	    /* !(a,b) => (a,!b)	*/
	    e->Eoper = OPcomma;
	    e->E1 = e1->E1;		// a
	    e->E2 = e1;			// !
	    e1->Eoper = OPnot;
	    e1->Ety = e->Ety;
	    e1->E1 = e1->E2;		// b
	    e1->E2 = NULL;
#if TX86
	    e = optelem(e,TRUE);
#else
	    e = elcomma(e);
	    //e = optelem(e,TRUE);
#endif
	    break;
  }
  return e;
}

/*************************
 * Complement
 *	~ ~ e => e
 */

STATIC elem * elcom(elem *e)
{ elem *e1;

  e1 = e->E1;
  if (e1->Eoper == OPcom)			/* ~ ~ e => e		*/
	/* Typing problem here	*/
	e = el_selecte1(el_selecte1(e));
  return e;
}

/*************************
 * If it is a conditional of a constant
 * then we know which exp to evaluate.
 * BUG:
 *	doesn't detect ("string" ? et : ef)
 */

STATIC elem * elcond(elem *e)
{   elem *e1;
    elem *ex;

    e1 = e->E1;
    switch (e1->Eoper)
    {	case OPconst:
	    if (boolres(e1))
	    L1:
		e = el_selecte1(el_selecte2(e));
	    else
		e = el_selecte2(el_selecte2(e));
	    break;
	case OPrelconst:
	case OPstring:
	    goto L1;

	case OPcomma:
	    // ((a,b) ? c) => (a,(b ? c))
	    e->Eoper = OPcomma;
	    e->E1 = e1->E1;
	    e1->E1 = e1->E2;
	    e1->E2 = e->E2;
	    e->E2 = e1;
	    e1->Eoper = OPcond;
	    e1->Ety = e->Ety;
	    return optelem(e,TRUE);

	case OPnot:
	    // (!a ? b : c) => (a ? c : b)
	    ex = e->E2->E1;
	    e->E2->E1 = e->E2->E2;
	    e->E2->E2 = ex;
	    goto L2;

	default:
	    if (OTboolnop(e1->Eoper))
	    {
	L2:
		e->E1 = e1->E1;
		e1->E1 = NULL;
		el_free(e1);
		return elcond(e);
	    }
	{
	    if (OPTIMIZER)
	    {
	    elem *ec1,*ec2;
	    tym_t ty = e->Ety;

	    ec1 = e->E2->E1;
	    ec2 = e->E2->E2;
	    if (tyintegral(ty) && ec1->Eoper == OPconst && ec2->Eoper == OPconst)
	    {   targ_llong i1,i2;
		targ_llong b;

		i1 = el_tolong(ec1);
		i2 = el_tolong(ec2);

		/* If b is an integer with only 1 bit set then		*/
		/*   replace ((a & b) ? b : 0) with (a & b)		*/
		/*   replace ((a & b) ? 0 : b) with ((a & b) ^ b)	*/
		if (e1->Eoper == OPand && e1->E2->Eoper == OPconst &&
		    tysize(ty) == tysize(ec1->Ety))
		{
		    b = el_tolong(e1->E2);
		    if (ispow2(b) != -1)	/* if only 1 bit is set	*/
		    {
			if (b == i1 && i2 == 0)
			{   e = el_selecte1(e);
			    e->E1->Ety = ty;
			    e->E2->Ety = ty;
			    e->E2->EV.Vllong = b;
			    return optelem(e,TRUE);
			}
			else if (i1 == 0 && b == i2)
			{
			    e1->Ety = ty;
			    e1->E1->Ety = ty;
			    e1->E2->Ety = ty;
			    e1->E2->EV.Vllong = b;
			    e->E1 = el_bin(OPxor,ty,e1,el_long(ty,b));
			    e = el_selecte1(e);
			    return optelem(e,TRUE);
			}
		    }
		}

		/* Replace ((a relop b) ? 1 : 0) with (a relop b)	*/
		else if (OTrel(e1->Eoper) &&
		    tysize(ty) <= tysize[TYint])
		{
		    if (i1 == 1 && i2 == 0)
			e = el_selecte1(e);
		    else if (i1 == 0 && i2 == 1)
		    {
			e->E1 = el_una(OPnot,ty,e1);
			e = optelem(el_selecte1(e),TRUE);
		    }
		}
#if TX86
		// The next two optimizations attempt to replace with an
		// unsigned compare, which the code generator can generate
		// code for without using jumps.

		// Try to replace (!e1) with (e1 < 1)
		else if (e1->Eoper == OPnot && !OTrel(e1->E1->Eoper))
		{
		    e->E1 = el_bin(OPlt,TYint,e1->E1,el_long(touns(e1->E1->Ety),1));
		    e1->E1 = NULL;
		    el_free(e1);
		}
		// Try to replace (e1) with (e1 >= 1)
		else if (!OTrel(e1->Eoper))
		{
		    if (tyfv(e1->Ety))
		    {
			if (tysize(e->Ety) == tysize[TYint])
			{
			    if (i1 == 1 && i2 == 0)
			    {	e->Eoper = OPbool;
				el_free(e->E2);
				e->E2 = NULL;
			    }
			    else if (i1 == 0 && i2 == 1)
			    {	e->Eoper = OPnot;
				el_free(e->E2);
				e->E2 = NULL;
			    }
			}
		    }
		    else
			e->E1 = el_bin(OPge,TYint,e1,el_long(touns(e1->Ety),1));
		}
#endif
	    }

	    // Try to detect absolute value expression
	    // (a < 0) -a : a
	    // (a >= 0) a : -a
	    if (e1->Eoper == OPlt &&
		e1->E2->Eoper == OPconst &&
		!boolres(e1->E2) &&
		!tyuns(e1->E1->Ety) &&
		!tyuns(e1->E2->Ety) &&
		ec1->Eoper == OPneg &&
		!el_sideeffect(ec2) &&
		el_match(e->E1->E1,ec2) &&
		el_match(ec1->E1,ec2) &&
		tysize(ty) >= intsize
	       )
	    {	e->E2->E2 = NULL;
		el_free(e);
		e = el_una(OPabs,ty,ec2);
	    }
	    break;
	    }
	}
    }
    return e;
}

/****************************
 * Comma operator.
 *	  ,	 e
 *	 / \  =>		expression with no effect
 *	c   e
 *	  ,		  ,
 *	 / \	=>	 / \	operators with no effect
 *	+   e		,   e
 *     / \	       / \
 *    e   e	      e   e
 */

STATIC elem * elcomma(elem *e)
{ register elem *e1,**pe1;
  elem *e2;
  int e1op;
  int changes;

  changes = -1;
L1:
  changes++;
L2:
  //printf("elcomma()\n");
  e2 = e->E2;
  pe1 = &(e->E1);
  e1 = *pe1;
  e1op = e1->Eoper;

  /* c,e => e	*/
  if (OTleaf(e1op) && !OTsideff(e1op) && !(e1->Ety & mTYvolatile))
  {	e2->Ety = e->Ety;
	e = el_selecte2(e);
	goto Lret;
  }

  /* ((a op b),e2) => ((a,b),e2)	if op has no side effects	*/
  if (!el_sideeffect(e1) && e1op != OPcomma && e1op != OPandand &&
	e1op != OPoror && e1op != OPcond)
  {
	if (OTunary(e1op))
		*pe1 = el_selecte1(e1);	/* get rid of e1		*/
	else
	{	e1->Eoper = OPcomma;
		e1->Ety = e1->E2->Ety;
	}
	goto L1;
  }

    if (!OPTIMIZER)
	goto Lret;

    /* Replace (a,b),e2 with a,(b,e2)	*/
    if (e1op == OPcomma)
    {
	e1->Ety = e->Ety;
	e->E1 = e1->E1;
	e1->E1 = e1->E2;
	e1->E2 = e2;
	e->E2 = elcomma(e1);
	goto L2;
    }

    if ((OTopeq(e1op) || e1op == OPeq) &&
	(e1->E1->Eoper == OPvar || e1->E1->Eoper == OPind) &&
	!el_sideeffect(e1->E1)
       )
    {
	if (el_match(e1->E1,e2))
	    // ((a = b),a) => (a = b)
	    e = el_selecte1(e);
	else if (OTrel(e2->Eoper) &&
		 OTleaf(e2->E2->Eoper) &&
		 el_match(e1->E1,e2->E1)
		)
	{   // ((a = b),(a < 0)) => ((a = b) < 0)
	    e1->Ety = e2->E1->Ety;
	    e->E1 = e2->E1;
	    e2->E1 = e1;
	    goto L1;
	}
	else if ((e2->Eoper == OPandand ||
		  e2->Eoper == OPoror   ||
		  e2->Eoper == OPcond) &&
		 el_match(e1->E1,e2->E1)
		)
	{
	    /* ((a = b),(a || c)) => ((a = b) || c)	*/
#if TX86
	    e1->Ety = e2->E1->Ety;
#endif
	    e->E1 = e2->E1;
	    e2->E1 = e1;
	    e = el_selecte2(e);
	    changes++;
	    goto Lret;
	}
	else if (e1op == OPeq)
	{
	    /* Replace ((a = b),(c = a)) with a,(c = (a = b))	*/
	    for (; e2->Eoper == OPcomma; e2 = e2->E1)
		;
	    if ((OTopeq(e2->Eoper) || e2->Eoper == OPeq) &&
		el_match(e1->E1,e2->E2) &&
#if 0
		!(e1->E1->Eoper == OPvar && el_appears(e2->E1,e1->E1->EV.sp.Vsym)) &&
#endif
		ERTOL(e2))
	    {
		e->E1 = e2->E2;
		e1->Ety = e2->E2->Ety;
		e2->E2 = e1;
		goto L1;
	    }
	}
	else
	{
#if 1	    // This optimization is undone in eleq().
	    // Replace ((a op= b),(a op= c)) with (0,a = (a op b) op c)
	    for (; e2->Eoper == OPcomma; e2 = e2->E1)
		;
	    if ((OTopeq(e2->Eoper)) &&
		el_match(e1->E1,e2->E1))
	    {	elem *ex;

		e->E1 = el_long(TYint,0);
		e1->Eoper = opeqtoop(e1op);
		e2->E2 = el_bin(opeqtoop(e2->Eoper),e2->Ety,e1,e2->E2);
		e2->Eoper = OPeq;
		goto L1;
	    }
#endif
	}
    }
Lret:
    again = changes != 0;
    return e;
}

/********************************
 */

STATIC elem * elremquo(elem *e)
{
    return e;
}

/********************************
 */

STATIC elem * elmod(elem *e)
{
    elem *e1;
    elem *e2;
    tym_t tym;

    tym = e->E1->Ety;
    if (!tyfloating(tym))
	return eldiv(e);
    return e;
}

/*****************************
 * Convert divides to >> if power of 2.
 * Can handle OPdiv, OPdivass, OPmod.
 */

STATIC elem * eldiv(elem *e)
{   elem *e2;
    tym_t tym;
    int uns;

    e2 = e->E2;
    tym = e->E1->Ety;
    uns = tyuns(tym) | tyuns(e2->Ety);
    if (cnst(e2) &&
#if TARGET_MAC
	(e->Eoper == OPdiv || e->Eoper == OPdivass) &&
#endif
       uns)
    {	int i;
#if TARGET_MAC
	int j;
	long l;
#endif

	e2->Ety = touns(e2->Ety);
#if TARGET_MAC
	l = el_tolong(e2);
	i = ispow2(l);
	j = ispow2(-l);
#else
	i = ispow2(el_tolong(e2));
#endif
	if (i != -1)
	{   int op;

	    switch (e->Eoper)
	    {	case OPdiv:
		    op = OPshr;
		    goto L1;
		case OPdivass:
		    op = OPshrass;
		L1:
		    e2->EV.Vint = i;
		    e2->Ety = TYint;
		    e->E1->Ety = touns(tym);
		    break;

		case OPmod:
		    op = OPand;
		    goto L3;
		case OPmodass:
		    op = OPandass;
		L3:
		    e2->EV.Vullong = el_tolong(e2) - 1;
		    break;

		default:
		    assert(0);
	    }
	    e->Eoper = op;
	    return optelem(e,TRUE);
	}
#if TARGET_MAC
	if (j != -1)
	{   elem *ea;
	    
	    ea = el_copytree(e->E1);
	    e2->EV.Vint = j;
	    e->Eoper = OPshr;
	    e->E1->Ety = touns(tym);
	    e2->Ety = TYint;
	    e = el_una(OPneg,tym,e);
	    e = el_bin(OPeq,tym,ea,e);
	    return optelem(e,TRUE);
	}
#endif
    }
#if TARGET_MAC
    if (cnst(e2) )
    {
	unsigned short op;
	tym_t tym2;
	elem *e1 = e->E1;
	
	tym = e->E1->Ety;
	op = e1->Eoper;
	if (op == OPu16_32 && e2->EV.Vulong <= (targ_ulong) SHORTMASK ||
	 op == OPshtlng && e2->EV.Vlong == (targ_short) e2->EV.Vlong)
		{
		tym2 = (uns || e1->Eoper == OPu16_32) ? TYushort : TYshort;
		e->E2 = el_una(OPlngsht,tym2,e2);
		goto L2;
		}
	else if (op == OPu8int && e2->EV.Vuns < 256 ||
		 op == OPs8int && e2->EV.Vint == (targ_schar) e2->EV.Vint)
		{
		tym2 = (uns || e1->Eoper == OPu8int) ? TYuchar : TYschar;
		e->E2 = el_una(OPint8,tym2,e2);
	    L2:
		tym2 |= e1->Ety & ~mTYbasic;
		e->E1 = el_selecte1(e1);
		e->E1->Ety = e->Ety = tym2;
		e = el_una(op,tym,e);	/* expand back to larger size */
		e = optelem(e,TRUE);
		}
	else if (tyintegral(e->Ety) && !tyuns(e->Ety) && el_tolong(e2) == -1)
#if TARGET_68000
	{
	    el_free(e->E2);
	    if (!el_sideeffect(e->E1))
		{
		e->Eoper = (e->Eoper == OPdiv) ? OPneg : OPnegass;
		e->E2 = NULL;
		}
	    else
		{
		e->Eoper = OPeq;
		e->E2 = el_copytree(e1);
		e->E2 = el_una(OPneg,tym,e->E2);
		}
	    return optelem(e,TRUE);
	}
#else
	{
	    e->Eoper = OPeq;
	    el_free(e->E2);
	    e->E2 = el_copytree(e1);
	    e->E2 = el_una(OPneg,tym,e->E2);
	    return optelem(e,TRUE);
	}
#endif
    }
#endif

    if (OPTIMIZER)
    {
	if (tyintegral(tym) && (e->Eoper == OPdiv || e->Eoper == OPmod))
	{   int sz = tysize(tym);

	    // See if we can replace with OPremquo
	    if (sz == intsize)
	    {
		// Don't do it if there are special code sequences in the
		// code generator (see cdmul())
		int pow2;
		if (e->E2->Eoper == OPconst &&
		    sz == REGSIZE && !uns &&
		    (pow2 = ispow2(el_tolong(e->E2))) != -1 &&
		    !(config.target_cpu < TARGET_80286 && pow2 != 1 && e->Eoper == OPdiv)
		   )
		    ;
		else
		{
		    int op;

		    op = OPmsw;
		    if (e->Eoper == OPdiv)
		    {
			op = (sz == 2) ? OP32_16 : OP64_32;
		    }
		    e->Eoper = OPremquo;
		    e = el_una(op, tym, e);
		    e->E1->Ety = (sz == 2) ? TYlong : TYllong;
		}
	    }
	}
    }

    return e;
}

/**************************
 * Convert (a op b) op c to a op (b op c).
 */

STATIC elem * swaplog(elem *e)
{	elem *e1;

	e1 = e->E1;
	e->E1 = e1->E2;
	e1->E2 = e;
	return optelem(e1,TRUE);
}

STATIC elem * eloror(elem *e)
{   elem *e1,*e2;
    tym_t t;
    tym_t ty1,ty2;

    e1 = e->E1;
    if (OTboolnop(e1->Eoper))
    {
	e->E1 = e1->E1;
	e1->E1 = NULL;
	el_free(e1);
	return eloror(e);
    }
    e2 = e->E2;
    if (OTboolnop(e2->Eoper))
    {
	e->E2 = e2->E1;
	e2->E1 = NULL;
	el_free(e2);
	return eloror(e);
    }
    if (OPTIMIZER)
    {
	if (e1->Eoper == OPbool)
	{   ty1 = e1->E1->Ety;
	    e1 = e->E1 = el_selecte1(e1);
	    e1->Ety = ty1;
	}
	if (e1->Eoper == OPoror)
	{	/* convert (a||b)||c to a||(b||c). This will find more CSEs.	*/
	      return swaplog(e);
	}
	e2 = elscancommas(e2);
	e1 = elscancommas(e1);
    }

    t = e->Ety;
    if (e2->Eoper == OPconst || e2->Eoper == OPrelconst || e2->Eoper == OPstring)
    {
	if (boolres(e2))		/* e1 || 1  => e1 , 1		*/
	{   if (e->E2 == e2)
		goto L2;
	}
	else				/* e1 || 0  =>  bool e1		*/
	{   if (e->E2 == e2)
	    {
		el_free(e->E2);
		e->E2 = NULL;
		e->Eoper = OPbool;
		goto L3;
	    }
	}
    }

    if (e1->Eoper == OPconst || e1->Eoper == OPrelconst || e1->Eoper == OPstring)
    {
	if (boolres(e1))		/* (x,1) || e2  =>  (x,1),1	*/
	{
	L2:
	    e->Eoper = OPcomma;
	    el_free(e->E2);
	    e->E2 = el_int(t,1);
	}
	else				/* (x,0) || e2  =>  (x,0),(bool e2) */
	{   e->Eoper = OPcomma;
	    if (tybasic(e->E2->Ety) != TYvoid)
		e->E2 = el_una(OPbool,t,e->E2);
	}
  }
  else if (OPTIMIZER &&
	e->E2->Eoper == OPvar &&
	!OTlogical(e1->Eoper) &&
	tysize(ty2 = e2->Ety) == tysize(ty1 = e1->Ety) &&
#if TARGET_MAC
	tysize(ty1) <= tysize[TYint] &&
#else
	tysize(ty1) <= intsize &&
#endif
	!tyfloating(ty2) &&
	!tyfloating(ty1) &&
	!(ty2 & mTYvolatile))
    {	/* Convert (e1 || e2) => (e1 | e2)	*/
	e->Eoper = OPor;
	e->Ety = ty1;
	e = el_una(OPbool,t,e);
    }
    else if (OPTIMIZER &&
	     e1->Eoper == OPand && e2->Eoper == OPand &&
	     tysize(e1->Ety) == tysize(e2->Ety) &&
	     el_match(e1->E1,e2->E1) && !el_sideeffect(e1->E1) &&
	     !el_sideeffect(e2->E2)
	    )
    {	// Convert ((a & b) || (a & c)) => bool(a & (b | c))
	e->Eoper = OPbool;
	e->E2 = NULL;
	e2->Eoper = OPor;
	el_free(e2->E1);
	e2->E1 = e1->E2;
	e1->E2 = e2;
    }
    else
	goto L1;
L3:
    e = optelem(e,TRUE);
L1:
    return e;
}

STATIC elem * elandand(elem *e)
{   elem *e1,*e2;
    tym_t t;

    e1 = e->E1;
    if (OTboolnop(e1->Eoper))
    {
	e->E1 = e1->E1;
	e1->E1 = NULL;
	el_free(e1);
	return elandand(e);
    }
    e2 = e->E2;
    if (OTboolnop(e2->Eoper))
    {
	e->E2 = e2->E1;
	e2->E1 = NULL;
	el_free(e2);
	return elandand(e);
    }
    if (OPTIMIZER)
    {
	// Look for (!(e >>> c) && ...)
	if (e1->Eoper == OPnot && e1->E1->Eoper == OPshr &&
	    e1->E1->E2->Eoper == OPconst)
	{
	    // Replace (e >>> c) with (e & x)
	    unsigned shift;
	    elem *e11 = e1->E1;

	    shift = el_tolong(e11->E2);
	    if (shift < intsize * 8)
	    {	targ_ullong m;

		m = ~0LL << shift;
		e11->Eoper = OPand;
		e11->E2->EV.Vullong = m;
		e11->E2->Ety = e11->Ety;
		return optelem(e,TRUE);
	    }
	}

	if (e1->Eoper == OPbool)
	{   t = e1->E1->Ety;
	    e1 = e->E1 = el_selecte1(e1);
	    e1->Ety = t;
	}
	if (e1->Eoper == OPandand)
	{   /* convert (a&&b)&&c to a&&(b&&c). This will find more CSEs.	*/
	    return swaplog(e);
	}
	e2 = elscancommas(e2);

	while (1)
	{   e1 = elscancommas(e1);
	    if (e1->Eoper == OPeq)
		e1 = e1->E2;
	    else
		break;
	}
    }

  t = e->Ety;
  if (e2->Eoper == OPconst || e2->Eoper == OPrelconst || e2->Eoper == OPstring)
  {	if (boolres(e2))	/* e1 && (x,1)  =>  e1 ? ((x,1),1) : 0	*/
	{
	    if (e2 == e->E2)	/* if no x, replace e with (bool e1)	*/
	    {	el_free(e2);
		e->E2 = NULL;
		e->Eoper = OPbool;
		goto L3;
	    }
	}
	else				/* e1 && (x,0)  =>  e1 , (x,0)	*/
	{   if (e2 == e->E2)
	    {	e->Eoper = OPcomma;
#if TX86
	    	goto L3;
#else
	    	return elcomma(e);
	    	//goto L3;
#endif
	    }
	}
  }

  if (e1->Eoper == OPconst || e1->Eoper == OPrelconst || e1->Eoper == OPstring)
  {
	e->Eoper = OPcomma;
	if (boolres(e1))		/* (x,1) && e2  =>  (x,1),bool e2 */
	{
	    e->E2 = el_una(OPbool,t,e->E2);
	}
	else				/* (x,0) && e2  =>  (x,0),0	*/
	{
	    el_free(e->E2);
	    e->E2 = el_int(t,0);
	}
	T68000(return elcomma(e);)
    }
    else
	goto L1;
L3:
    e = optelem(e,TRUE);
L1:
    return e;
}

/**************************
 * Reference to bit field
 *	 bit
 *	 / \	=>	((e << c) >> b) & m
 *	e  w,b
 *
 * Note that this routine can handle long bit fields, though this may
 * not be supported later on.
 */

STATIC elem * elbit(elem *e)
{ unsigned wb,w,b,c;
  targ_ullong m;
  elem *e2;
  tym_t tym1;
  unsigned sz;

  tym1 = e->E1->Ety;
  sz = tysize(tym1) * 8;
  e2 = e->E2;
  wb = e2->EV.Vuns;

  w = (wb >> 8) & 0xFF;			/* width in bits of field	*/
  m = ((targ_ullong)1 << w) - 1;	// mask w bits wide
  b = wb & 0xFF;			/* bits to right of field	*/
  c = 0;
  assert(w + b <= sz);

  if (tyuns(tym1))			/* if unsigned bit field	*/
  {
#if 1	/* Should use a more general solution to this	*/
	if (w == 8 && sz == 16 && b == 0)
	{
	    e->E1 = el_una(OPint8,TYuchar,e->E1);
	    e->Eoper = OPu8int;
	    e->E2 = NULL;
	    el_free(e2);
	    goto L1;
	}
#endif
	if (w + b == sz)		/* if field is left-justified	*/
	    m = ~(targ_ullong)0;	// no need to mask
  }
  else					/* signed bit field		*/
  {
	if (w == 8 && sz == 16 && b == 0)
	{
#if 1
	    e->E1 = el_una(OPint8,TYschar,e->E1);
	    e->Eoper = OPs8int;
	    e->E2 = NULL;
	    el_free(e2);
	    goto L1;
#endif
	}
	m = ~(targ_ullong)0;
	c = sz - (w + b);
	b = sz - w;
  }

  e->Eoper = OPand;

  e2->EV.Vullong = m;			/* mask w bits wide		*/
  e2->Ety = e->Ety;

  e->E1 = el_bin(OPshr,tym1,
		el_bin(OPshl,tym1,e->E1,el_int(TYint,c)),
		el_int(TYint,b));
L1:
  return optelem(e,TRUE);		/* optimize result		*/
}

/*****************
 * Indirection
 *	* & e => e
 */

STATIC elem * elind(elem *e)
{ elem *e1;
  tym_t tym;
  unsigned numbytes;

  tym = e->Ety;
  e1 = e->E1;
  switch (e1->Eoper)
  {	case OPrelconst:
#if TARGET_MAC
	/* string consts can't be OPvar, no symbol */
	  if (el_fl(e1) != FLdatseg)
#endif
	  {
	    e->E1->Enumbytes = e->Enumbytes;
	    e = el_selecte1(e);
	    e->Eoper = OPvar;
	    e->Ety = tym;		/* preserve original type	*/
	  }
	    break;
	case OPadd:
#if TX86
	    if (OPTIMIZER)
	    {   /* Try to convert far pointer to stack pointer	*/
		elem *e12 = e1->E2;

		if (e12->Eoper == OPrelconst &&
		    tybasic(e12->Ety) == TYfptr &&
		    /* If symbol is located on the stack	*/
		    sytab[e12->EV.sp.Vsym->Sclass] & SCSS)
		{   e1->Ety = (e1->Ety & (mTYconst | mTYvolatile | mTYimmutable | mTYshared | mTYLINK)) | TYsptr;
		    e12->Ety = (e12->Ety & (mTYconst | mTYvolatile | mTYimmutable | mTYshared | mTYLINK)) | TYsptr;
		}
	    }
#endif
	    break;
	case OPcomma:
	    // Replace (*(ea,eb)) with (ea,*eb)
	    e->E1->Enumbytes = e->Enumbytes;
	    numbytes = e->Enumbytes;
	    e = el_selecte1(e);
	    e->Ety = tym;
	    e->E2 = el_una(OPind,tym,e->E2);
	    e->E2->Enumbytes = numbytes;
#if TX86
	    again = 1;
	    return e;
#else
	    e = elcomma(e);
	    //e = optelem(e,TRUE);
#endif
	    break;
  }
  return e;
}

/*****************
 * Address of.
 *	& v => &v
 *	& * e => e
 *	& (v1 = v2) => ((v1 = v2), &v1)
 */

STATIC elem * eladdr(elem *e)
{ elem *e1;
  tym_t tym;

  tym = e->Ety;
  e1 = e->E1;
  elem_debug(e1);
  switch (e1->Eoper)
  {
    case OPvar:
	e1->Eoper = OPrelconst;
	e1->EV.sp.Vsym->Sflags &= ~(SFLunambig | GTregcand);
	T68000(e1->EV.sp.Vsym->Sflags |= GTadrof;)
	e1->Ety = tym;
	e = optelem(el_selecte1(e),TRUE);
	break;
    case OPind:
    {	tym_t tym2;
	int sz;

	tym2 = e1->E1->Ety;

#if TX86
	/* Watch out for conversions between near and far pointers	*/
	sz = tysize(tym) - tysize(tym2);
	if (sz != 0)
	{   int op;

	    if (sz > 0)				/* if &far * near	*/
		op = OPptrlptr;
	    else				/* else &near * far	*/
		op = OPoffset;
	    e->Ety = tym2;
	    e = el_una(op,tym,e);
	    goto L1;
	}
#endif
	e = el_selecte1(el_selecte1(e));
	e->Ety = tym;
	break;
    }
    case OPcomma:
	/* Replace (&(ea,eb)) with (ea,&eb)	*/
	e = el_selecte1(e);
	e->Ety = tym;
	e->E2 = el_una(OPaddr,tym,e->E2);
    L1:
	e = optelem(e,TRUE);
	break;
    case OPnegass:
	assert(0);
    default:
	if (OTassign(e1->Eoper))
	{
    case OPstreq:
	    //	& (v1 = e) => ((v1 = e), &v1)
	    if (e1->E1->Eoper == OPvar)
	    {   elem *ex;

		e->Eoper = OPcomma;
		e->E2 = el_una(OPaddr,tym,el_copytree(e1->E1));
		goto L1;
	    }
	    //	& (*p1 = e) => ((*(t = p1) = e), t)
	    else if (e1->E1->Eoper == OPind)
	    {	tym_t tym;
		elem *tmp;

		tym = e1->E1->E1->Ety;
		tmp = el_alloctmp(tym);
		e1->E1->E1 = el_bin(OPeq,tym,tmp,e1->E1->E1);
		e->Eoper = OPcomma;
		e->E2 = el_copytree(tmp);
		goto L1;
	    }
	}
	break;
    case OPcond:
    {	/* Replace &(x ? y : z) with (x ? &y : &z)	*/
	elem *ecolon;

	ecolon = e1->E2;
	ecolon->Ety = tym;
	ecolon->E1 = el_una(OPaddr,tym,ecolon->E1);
	ecolon->E2 = el_una(OPaddr,tym,ecolon->E2);
	e = el_selecte1(e);
	e = optelem(e,TRUE);
	break;
    }
  }
  return e;
}

STATIC elem * elneg(elem *e)
{
    if (e->E1->Eoper == OPneg)
    {	e = el_selecte1(e);
	e = el_selecte1(e);
    }
    else
	e = evalu8(e);
    return e;
}

STATIC elem * elcall(elem *e)
{
    if (e->E1->Eoper == OPcomma || OTassign(e->E1->Eoper))
	e = cgel_lvalue(e);
    return e;
}

/***************************
 * Walk tree, converting types to tym.
 */

STATIC void elstructwalk(elem *e,tym_t tym)
{   int sz;
    tym_t ety;

    sz = tysize(tym);
    while ((ety = tybasic(e->Ety)) == TYstruct ||
	   ety == TYarray /*|| sz != tysize[ety]*/)
    {	elem_debug(e);
	e->Ety = (e->Ety & ~mTYbasic) | tym;
	switch (e->Eoper)
	{   case OPcomma:
	    case OPcond:
	    case OPinfo:
		break;
	    case OPeq:
	    case OPcolon:
	    case OPcolon2:
		elstructwalk(e->E1,tym);
		break;
	    default:
		return;
	}
	e = e->E2;
    }
}

/*******************************
 * See if we can replace struct operations with simpler ones.
 * For OPstreq and OPstrpar.
 */

CEXTERN elem * elstruct(elem *e)
{   tym_t tym;
    elem *e2;
    elem **pe2;

    //printf("elstruct(%p)\n", e);
    if (e->Eoper == OPstreq && (e->E1->Eoper == OPcomma || OTassign(e->E1->Eoper)))
	return cgel_lvalue(e);
    //printf("\tnumbytes = %d\n", (int)e->Enumbytes);
    switch ((int) e->Enumbytes)
    {
#if TX86 || TARGET_68K
	// powerPC rtm structs are always in memory
	case CHARSIZE:	tym = TYchar;	goto L1;
	case SHORTSIZE:	tym = TYshort; 	goto L1;
	case LONGSIZE:	tym = TYlong;	goto L1;
#if LONGLONG
	case LLONGSIZE:	if (intsize == 2)
			    goto Ldefault;
			tym = TYllong;	goto L1;
#endif
	L1:
	    switch (e->Eoper)
	    {	case OPstreq:
		    e->Eoper = OPeq;
		    e->Ety = (e->Ety & ~mTYbasic) | tym;
		    elstructwalk(e->E1,tym);
		    elstructwalk(e->E2,tym);
		    e = optelem(e,TRUE);
		    break;
		case OPstrpar:
		    e = el_selecte1(e);
		    /* FALL-THROUGH */
		default:		/* called by doptelem()		*/
		    e2 = e;
		    elstructwalk(e2,tym);
		    break;
	    }
	    break;
#endif
#if 0 && MARS
	case 0:
	    assert(0);		// no 0 length struct's
	    break;
#endif
	default:
	Ldefault:
	    if (e->Eoper == OPstreq)
		pe2 = &e->E2;
	    else if (e->Eoper == OPstrpar)
		pe2 = &e->E1;
	    else
		break;
	    while ((*pe2)->Eoper == OPcomma)
		pe2 = &(*pe2)->E2;
	    e2 = *pe2;

	    // Convert (x streq (a?y:z)) to (x streq *(a ? &y : &z))
	    if (e2->Eoper == OPcond)
	    {	tym_t ty2 = e2->Ety;
		tym_t typ;

#if TARGET_MAC
		typ = TYfptr;
#else
		/* We should do the analysis to see if we can use
		   something simpler than TYfptr.
		 */
		typ = (intsize == LONGSIZE) ? TYnptr : TYfptr;
#endif
		e2 = el_una(OPaddr,typ,e2);
		e2 = optelem(e2,TRUE);		/* distribute & to x and y leaves */
		*pe2 = el_una(OPind,ty2,e2);
		break;
	    }
#if TARGET_MAC
	    if (e->Eoper == OPstreq)
	    {
		e2 = e->E2;
		if (e2->Eoper == OPind && e2->E1->Eoper == OPcall)
	        {
		    elem *parmptr;
		    tym_t tym;

		    parmptr = e2->E1;
		    while(parmptr->E2->Eoper == OPparam)
			parmptr = parmptr->E2;
					    // find the tmp used as return arg for call
		    if(parmptr->E2->Eoper == OPrelconst && parmptr->E2->Eflags&EFhidretp)
		    {
			tym = parmptr->E2->Ety;
			el_free(parmptr->E2);	// Use Addr of return area instead
			parmptr->E2 = el_una(OPaddr,tym,e->E1);
			tym = e2->E1->Ety;		// save the OPcall type
			e->E1 = NULL;
			e = el_selecte2(e);		// remove the OPstreq
			e = el_selecte1(e);		// remove the OPind
			e->Ety = tym;		// restore the OPcall type
			e = optelem(e,TRUE);
		    }
		}
		else if (e->E1->Eoper == OPcomma)
	    	{
		    elem *e1 = e->E1;
		    e1->Ety = e->Ety;
		    e->E1 = e1->E2;
		    e1->E2 = e;
		    e = e1;
		    e = optelem(e,TRUE);
		}
	    }
#endif
	    break;
    }
    return e;
}

/**************************
 * Assignment. Replace bit field assignment with
 * equivalent tree.
 *		=
 *	      /  \
 *	     /	  r
 *	  bit
 *	 /   \
 *	l     w,b
 *
 * becomes:
 *	    ,
 *	   / \
 *	  =   (r&m)
 *	 / \
 *	l   |
 *	   / \
 *  (r&m)<<b  &
 *	     / \
 *	    l  ~(m<<b)
 * Note:
 *	This depends on the expression (r&m)<<b before l. This is because
 *	of expressions like (l.a = l.b = n). It is an artifact of the way
 *	we do things that this works (cost() will rate the << as more
 *	expensive than the &, and so it will wind up on the left).
 */

STATIC elem * eleq(elem *e)
{   targ_ullong m;
    unsigned t,w,b;
    unsigned sz;
    elem *l,*l2,*r,*r2,*e1,*eres;
    int wantres;
    tym_t tyl;

    wantres = expgoal;
    e1 = e->E1;

    if (e1->Eoper == OPcomma || OTassign(e1->Eoper))
	return cgel_lvalue(e);

#if 0  // Doesn't work too well, removed
    // Replace (*p++ = e2) with ((*p = e2),*p++)
    if (OPTIMIZER && e1->Eoper == OPind &&
      (e1->E1->Eoper == OPpostinc || e1->E1->Eoper == OPpostdec) &&
      !el_sideeffect(e1->E1->E1)
       )
    {
	e = el_bin(OPcomma,e->Ety,e,e1);
	e->E1->E1 = el_una(OPind,e1->Ety,el_copytree(e1->E1->E1));
	return optelem(e,TRUE);
    }
#endif

#if 0 && LNGDBLSIZE == 12
    /* On Linux, long doubles are 12 bytes rather than 10.
     * This means, on assignment, we need to set 12 bytes,
     * so that garbage doesn't creep into the extra 2 bytes
     * and throw off compares.
     */
    tyl = tybasic(e1->Ety);
    if (e1->Eoper == OPvar && (tyl == TYldouble || tyl == TYildouble || tyl == TYcldouble))
    {
#if 1
	elem *ex = el_copytree(e1);
	ex->EV.sp.Voffset += 10;
	ex = el_bin(OPeq, TYshort, ex, el_long(TYshort, 0));
	e = el_combine(ex, e);
	if (tyl == TYcldouble)
	{
	    ex = el_copytree(e1);
	    ex->EV.sp.Voffset += 10 + 12;
	    ex = el_bin(OPeq, TYshort, ex, el_long(TYshort, 0));
	    e = el_combine(ex, e);
	}
	return optelem(e, TRUE);
#else
	e->Eoper = OPstreq;
	e->Enumbytes = tysize(tyl);
	return elstruct(e);
#endif
    }
#endif

    if (OPTIMIZER)
    {	elem *e2 = e->E2;
	elem *ei;
	int op2 = e2->Eoper;

	// Replace (e1 = *p++) with (e1 = *p, p++, e1)
	ei = e2;
	if (e1->Eoper == OPvar &&
	    (op2 == OPind || (OTunary(op2) && (ei = e2->E1)->Eoper == OPind)) &&
	    (ei->E1->Eoper == OPpostinc || ei->E1->Eoper == OPpostdec) &&
	    !el_sideeffect(e1) &&
	    !el_sideeffect(ei->E1->E1)
	   )
	{
	   e = el_bin(OPcomma,e->Ety,
		e,
		el_bin(OPcomma,e->Ety,ei->E1,el_copytree(e1)));
	   ei->E1 = el_copytree(ei->E1->E1);		// copy p
	   return optelem(e,TRUE);
	}

	/* Replace (e = e) with (e,e)	*/
	if (el_match(e1,e2))
	{   e->Eoper = OPcomma;
	L1:
	    return optelem(e,TRUE);
	}

	// Replace (e1 = (e21 , e22)) with (e21 , (e1 = e22))
	if (op2 == OPcomma)
	{
	    e2->Ety = e->Ety;
	    e->E2 = e2->E2;
	    e2->E2 = e;
	    e = e2;
	    goto L1;
	}

	if (OTop(op2) && !el_sideeffect(e1)
	    && op2 != OPdiv && op2 != OPmod
	   )
	{   tym_t ty;
	    int op3;

	    // Replace (e1 = e1 op e) with (e1 op= e)
	    if (el_match(e1,e2->E1))
	    {	ty = e2->E2->Ety;
		e->E2 = el_selecte2(e2);
	    L2:
		e->E2->Ety = ty;
		e->Eoper = optoopeq(op2);
		goto L1;
	    }
	    if (OTcommut(op2))
	    {
		/* Replace (e1 = e op e1) with (e1 op= e)	*/
		if (el_match(e1,e2->E2))
		{   ty = e2->E1->Ety;
		    e->E2 = el_selecte1(e2);
		    goto L2;
		}
	    }

#if 0
// Note that this optimization is undone in elcomma(), this results in an
// infinite loop. This optimization is preferable if e1 winds up a register
// variable, the inverse in elcomma() is preferable if e1 winds up in memory.
	    // Replace (e1 = (e1 op3 ea) op2 eb) with (e1 op3= ea),(e1 op2= eb)
	    op3 = e2->E1->Eoper;
	    if (OTop(op3) && el_match(e1,e2->E1->E1) && !el_depends(e1,e2->E2))
	    {
		e->Eoper = OPcomma;
		e->E1 = e2->E1;
		e->E1->Eoper = optoopeq(op3);
		e2->E1 = e1;
		e1->Ety = e->E1->Ety;
		e2->Eoper = optoopeq(op2);
		e2->Ety = e->Ety;
		goto L1;
	    }
#endif
	}

	if (op2 == OPneg && el_match(e1,e2->E1) && !el_sideeffect(e1))
	{   int offset;

	    tyl = tybasic(e1->Ety);
	Ldef:
	    // Replace (i = -i) with (negass i)
	    e->Eoper = OPnegass;
	    e->E2 = NULL;
	    el_free(e2);
	    return optelem(e, TRUE);
	}

	// Replace (x = (y ? z : x)) with ((y && (x = z)),x)
	if (op2 == OPcond && el_match(e1,e2->E2->E2))
	{   elem *e22 = e2->E2;		// e22 is the OPcond

	    e->Eoper = OPcomma;
	    e->E2 = e1;
	    e->E1 = e2;
	    e2->Eoper = OPandand;
	    e2->Ety = TYint;
	    e22->Eoper = OPeq;
	    e22->Ety = e->Ety;
	    e1 = e22->E1;
	    e22->E1 = e22->E2;
	    e22->E2 = e1;
	    return optelem(e,TRUE);
	}

	// Replace (x = (y ? x : z)) with ((y || (x = z)),x)
	if (op2 == OPcond && el_match(e1,e2->E2->E1))
	{   elem *e22 = e2->E2;		// e22 is the OPcond

	    e->Eoper = OPcomma;
	    e->E2 = e1;
	    e->E1 = e2;
	    e2->Eoper = OPoror;
	    e2->Ety = TYint;
	    e22->Eoper = OPeq;
	    e22->Ety = e->Ety;
	    return optelem(e,TRUE);
	}

	// If floating point, replace (x = -y) with (x = y ^ signbit)
	if (op2 == OPneg && (tyreal(e2->Ety) || tyimaginary(e2->Ety)) &&
	    (e2->E1->Eoper == OPvar || e2->E1->Eoper == OPind))
	{   elem *es;
	    tym_t ty;

	    es = el_calloc();
	    es->Eoper = OPconst;
	    switch (tysize(e2->Ety))
	    {
		case FLOATSIZE:
		    ty = TYlong;
		    es->EV.Vlong = 0x80000000;
		    break;
		case DOUBLESIZE:
#if LONGLONG
		    if (I32)
		    {	ty = TYllong;
			es->EV.Vllong = 0x8000000000000000LL;
			break;
		    }
#endif
		case LNGDBLSIZE:
		    el_free(es);
		    goto L8;
	    }
	    es->Ety = ty;
	    e1->Ety = ty;
	    e2->Ety = ty;
	    e2->E1->Ety = ty;
	    e2->E2 = es;
	    e2->Eoper = OPxor;
	    return optelem(e,TRUE);
	}
    L8:	;
    }

   if (e1->Eoper == OPcomma)
	return cgel_lvalue(e);
#if MARS
    // No bit fields to deal with
    return e;
#else
  if (e1->Eoper != OPbit)
	return e;
  if (e1->E1->Eoper == OPcomma || OTassign(e1->E1->Eoper))
	return cgel_lvalue(e);
  t = e->Ety;
  l = e1->E1;				/* lvalue			*/
  r = e->E2;
  tyl = l->Ety;
  sz = tysize(tyl) * 8;
  w = (e1->E2->EV.Vuns >> 8);		/* width in bits of field	*/
  m = ((targ_ullong)1 << w) - 1;	// mask w bits wide
  b = e1->E2->EV.Vuns & 0xFF;		/* bits to shift		*/

  eres =  el_bin(OPeq,t,
		l,
		el_bin(OPor,t,
			el_bin(OPshl,t,
				(r2 = el_bin(OPand,t,r,el_long(t,m))),
				el_int(TYint,b)
			),
			el_bin(OPand,t,
				(l2 = el_copytree(l)),
				el_long(t,~(m << b))
			)
		)
	  );
  eres->Esrcpos = e->Esrcpos;		// save line information
  if (OPTIMIZER && w + b == sz)
	r2->E2->EV.Vllong = ~ZEROLL;	// no need to mask if left justified
  if (wantres)
  {	unsigned c;
	elem **pe;
	elem *e2;

	r = el_copytree(r);
	if (tyuns(tyl))			/* unsigned bit field		*/
	{
	    e2 = el_bin(OPand,t,r,el_long(t,m));
	    pe = &e2->E1;
	}
	else				/* signed bit field		*/
	{
	    c = sz - w;			/* e2 = (r << c) >> c		*/
	    e2 = el_bin(OPshr,t,el_bin(OPshl,tyl,r,el_long(TYint,c)),el_long(TYint,c));
	    pe = &e2->E1->E1;
	}
	eres = el_bin(OPcomma,t,eres,e2);
	if (EOP(r))
	    fixside(&(r2->E1),pe);
  }

  if (EOP(l) && EOP(l->E1))
	fixside(&(l2->E1),&(l->E1));
  e1->E1 = e->E2 = NULL;
  el_free(e);
  return optelem(eres,TRUE);
#endif
}

/**********************************
 */

STATIC elem * elnegass(elem *e)
{
    e = cgel_lvalue(e);
    return e;
}

/**************************
 * Add assignment. Replace bit field assignment with
 * equivalent tree.
 *	       +=
 *	      /  \
 *	     /	  r
 *	  bit
 *	 /   \
 *	l     w,b
 *
 * becomes:
 *		     =
 *		    / \
 *		   l   |
 *		      / \
 *		    <<   \
 *		   /  \   \
 *		  &    b   &
 *		 / \	  / \
 *	       op   m	 l   ~(m<<b)
 *	      /  \
 *	     &    r
 *	    / \
 *	  >>   m
 *	 /  \
 *	l    b
 */

STATIC elem * elopass(elem *e)
{   targ_llong m;
    unsigned w,b,op;
    tym_t t;
    tym_t tyl;
    elem *l,*r,*e1,*l2,*l3,*op2,*eres;
    int wantres;

    wantres = expgoal;
    e1 = e->E1;
    if (OTconv(e1->Eoper))
    {	e = fixconvop(e);
	return optelem(e,TRUE);
    }
#if !(MARS)   // no bit fields to worry about
    if (e1->Eoper == OPbit)
    {
	op = opeqtoop(e->Eoper);

	// Make sure t is unsigned
	// so >> doesn't have to be masked
	t = touns(e->Ety);

	assert(tyintegral(t));
	l = e1->E1;				// lvalue
	tyl = l->Ety;
	r = e->E2;
	w = (e1->E2->EV.Vuns >> 8) & 0xFF;	// width in bits of field
	m = ((targ_llong)1 << w) - 1;		// mask w bits wide
	b = e1->E2->EV.Vuns & 0xFF;		// bits to shift

	if (tyuns(tyl))
	{
	    eres = el_bin(OPeq,t,
		    l,
		    el_bin(OPor,t,
			    (op2=el_bin(OPshl,t,
				    el_bin(OPand,t,
					    el_bin(op,t,
						    el_bin(OPand,t,
							el_bin(OPshr,t,
							    (l2=el_copytree(l)),
							    el_long(TYint,b)
							),
							el_long(t,m)
						    ),
						    r
					    ),
					    el_long(t,m)
				    ),
				    el_long(TYint,b)
			    )),
			    el_bin(OPand,t,
				    l3=el_copytree(l),
				    el_long(t,~(m << b))
			    )
		    )
		);

	    if (wantres)
	    {   eres = el_bin(OPcomma,t,eres,el_copytree(op2->E1));
		fixside(&(op2->E1),&(eres->E2));
	    }
	}
	else
	{   /* signed bit field
	       rewrite to:	(l bit w,b) = ((l bit w,b) op r)
	     */
	    e->Eoper = OPeq;
	    e->E2 = el_bin(op,t,el_copytree(e1),r);
	    if (l->Eoper == OPind)
		fixside(&e->E2->E1->E1->E1,&l->E1);
	    eres = e;
	    goto ret;
	}

	if (EOP(l) && EOP(l->E1))
	{   fixside(&(l2->E1),&(l->E1));
	    el_free(l3->E1);
	    l3->E1 = el_copytree(l->E1);
	}

	e1->E1 = e->E2 = NULL;
	el_free(e);
    ret:
	e = optelem(eres,TRUE);
    }
    else
#endif
    {
	if (e1->Eoper == OPcomma || OTassign(e1->Eoper))
	    e = cgel_lvalue(e);    // replace (e,v)op=e2 with e,(v op= e2)
	else
	{
	    switch (e->Eoper)
	    {   case OPmulass:
		    e = elmul(e);
		    break;
		case OPdivass:
		    // Replace r/=c with r=r/c
		    if (tycomplex(e->E2->Ety) && !tycomplex(e1->Ety))
		    {	elem *ed;

			e->Eoper = OPeq;
			if (e1->Eoper == OPind)
			{   // ed: *(tmp=e1->E1)
			    // e1: *tmp
			    elem *tmp;

			    tmp = el_alloctmp(e1->E1->Ety);
			    ed = el_bin(OPeq, tmp->Ety, tmp, e1->E1);
			    e1->E1 = el_copytree(tmp);
			    ed = el_una(OPind, e1->Ety, ed);
			}
			else
			    ed = el_copytree(e1);
			// e: e1=ed/e2
			e->E2 = el_bin(OPdiv, e->E2->Ety, ed, e->E2);
			if (tyreal(e1->Ety))
			    e->E2 = el_una(OPc_r, e1->Ety, e->E2);
			else
			    e->E2 = el_una(OPc_i, e1->Ety, e->E2);
			return optelem(e, TRUE);
		    }
		    // Repace x/=y with x=x/y
		    if (OPTIMIZER &&
			tyintegral(e->E1->Ety) &&
			e->E1->Eoper == OPvar &&
			!el_sideeffect(e->E1))
		    {
			e->Eoper = OPeq;
			e->E2 = el_bin(OPdiv, e->E2->Ety, el_copytree(e->E1), e->E2);
			return optelem(e, TRUE);
		    }
		    e = eldiv(e);
		    break;

		case OPmodass:
		    // Repace x%=y with x=x%y
		    if (OPTIMIZER &&
			tyintegral(e->E1->Ety) &&
			e->E1->Eoper == OPvar &&
			!el_sideeffect(e->E1))
		    {
			e->Eoper = OPeq;
			e->E2 = el_bin(OPmod, e->E2->Ety, el_copytree(e->E1), e->E2);
			return optelem(e, TRUE);
		    }
		    break;
	    }
	}
    }
    return e;
}

/**************************
 * Add assignment. Replace bit field post assignment with
 * equivalent tree.
 *	(l bit w,b) ++ r
 * becomes:
 *	(((l bit w,b) += r) - r) & m
 */

STATIC elem * elpost(elem *e)
{   targ_llong r;
    tym_t ty;
    elem *e1;
    targ_llong m;
    unsigned w,b;

    e1 = e->E1;
    if (e1->Eoper != OPbit)
    {	if (e1->Eoper == OPcomma || OTassign(e1->Eoper))
	    return cgel_lvalue(e);    // replace (e,v)op=e2 with e,(v op= e2)
	return e;
    }

    assert(e->E2->Eoper == OPconst);
    r = el_tolong(e->E2);

    w = (e1->E2->EV.Vuns >> 8) & 0xFF;	/* width in bits of field	*/
    m = ((targ_llong)1 << w) - 1;	/* mask w bits wide		*/
    b = e1->E2->EV.Vuns & 0xFF;		/* bits to shift		*/

    ty = e->Ety;
    e->Eoper = (e->Eoper == OPpostinc) ? OPaddass : ((r = -r), OPminass);
    e = el_bin(OPmin,ty,e,el_long(ty,r));
    if (tyuns(e1->E1->Ety))		/* if unsigned bit field	*/
	e = el_bin(OPand,ty,e,el_long(ty,m));
    return optelem(e,TRUE);
}

/***************************
 * Take care of compares.
 *	(e == 0) => (!e)
 *	(e != 0) => (bool e)
 */

STATIC elem * elcmp(elem *e)
{ elem *e2 = e->E2;
  elem *e1 = e->E1;
  int uns;

  //printf("elcmp(%p)\n",e); elem_print(e);

L1:
  if (OPTIMIZER)
  {
  int op = e->Eoper;

  /* Convert comparison of OPrelconsts of the same symbol to comparisons */
  /* of their offsets.							 */
  if (e1->Eoper == OPrelconst && e2->Eoper == OPrelconst &&
      e1->EV.sp.Vsym == e2->EV.sp.Vsym)
  {
	e1->Eoper = OPconst;
	e1->Ety = TYptrdiff;
	e2->Eoper = OPconst;
	e2->Ety = TYptrdiff;
#if TX86
	return optelem(e,TRUE);
#else
	goto L1;
	//return optelem(e,TRUE);
#endif
  }

    // Convert comparison of long pointers to comparison of integers
    if ((op == OPlt || op == OPle || op == OPgt || op == OPge) &&
	tyfv(e2->Ety) && tyfv(e1->Ety))
    {
#if TX86
	e->E1 = el_una(OPlngsht,e->Ety,e1);
	e->E2 = el_una(OPlngsht,e->Ety,e2);
	return optelem(e,TRUE);
#else
	e->E1->Ety = e->Ety;
  	e->E2->Ety = e->Ety;
#endif
    }

    // Convert ((e & 1) == 1) => (e & 1)
    if (op == OPeqeq && e2->Eoper == OPconst && e1->Eoper == OPand)
    {	elem *e12 = e1->E2;

	if (e12->Eoper == OPconst && el_tolong(e2) == 1 && el_tolong(e12) == 1)
	{   tym_t ty1;
	    tym_t ty;
	    int sz1;
	    int sz;

	    ty = e->Ety;
	    ty1 = e1->Ety;
	    e = el_selecte1(e);
	    sz = tysize(ty);
	    for (sz1 = tysize(ty1); sz1 != sz; sz1 = tysize(e->Ety))
	    {
		switch (sz1)
		{
		    case 1:
			e = el_una(OPu8_16,TYshort,e);
			break;
		    case 2:
			if (sz > 2)
			    e = el_una(OPu16_32,TYlong,e);
			else
			    e = el_una(OP16_8,TYuchar,e);
			break;
		    case 4:
			if (sz > 2)
			    e = el_una(OPu32_64,TYshort,e);
			else
			    e = el_una(OP32_16,TYshort,e);
			break;
		    case 8:
			e = el_una(OP64_32,TYlong,e);
			break;
		    default:
			assert(0);
		}
	    }
	    e->Ety = ty;
	    return optelem(e,TRUE);
	}
    }
  }

  uns = tyuns(e1->Ety) | tyuns(e2->Ety);
  if (cnst(e2))
  {
	tym_t tym;
	int sz;

	if (e1->Eoper == OPu16_32 && e2->EV.Vulong <= (targ_ulong) SHORTMASK ||
		 e1->Eoper == OPshtlng &&
		 e2->EV.Vlong == (targ_short) e2->EV.Vlong)
	{
		tym = (uns || e1->Eoper == OPu16_32) ? TYushort : TYshort;
		e->E2 = el_una(OPlngsht,tym,e2);
		goto L2;
	}

	/* Try to convert to byte/word comparison for ((x & c)==d)
	   when mask c essentially casts x to a smaller type
	 */
	if (OPTIMIZER &&
	    e1->Eoper == OPand &&
	    e1->E2->Eoper == OPconst &&
	    (sz = tysize(e2->Ety)) > CHARSIZE)
	{   int op;

	    assert(tyintegral(e2->Ety));
#if TX86		/* ending up with byte ops in A regs */
	    if (!(el_tolong(e2) & ~CHARMASK) &&
		!(el_tolong(e1->E2) & ~CHARMASK)
	       )
	    {
		if (sz == LLONGSIZE)
		{   e1->E1 = el_una(OP64_32,TYulong,e1->E1);
		    e1->E1 = el_una(OP32_16,TYushort,e1->E1);
		}
		else if (sz == LONGSIZE)
		    e1->E1 = el_una(OP32_16,TYushort,e1->E1);
		tym = TYuchar;
		op = OPint8;
		goto L4;
	    }
#endif
	    if (
#if TX86
		intsize == SHORTSIZE &&	/* not a win when regs are long */
#endif
		sz == LONGSIZE &&
		!(e2->EV.Vulong & ~SHORTMASK) &&
		!(e1->E2->EV.Vulong & ~SHORTMASK)
	       )
	    {
		tym = TYushort;
		op = OPlngsht;
	    L4:
		e2->Ety = tym;
		e1->Ety = tym;
		e1->E2->Ety = tym;
		e1->E1 = el_una(op,tym,e1->E1);
		e = optelem(e,TRUE);
		goto ret;
	    }
	}

	if (e1->Eoper == OPu8int && e2->EV.Vuns < 256 ||
		 e1->Eoper == OPs8int &&
		 e2->EV.Vint == (targ_schar) e2->EV.Vint)
	{
		tym = (uns || e1->Eoper == OPu8int) ? TYuchar : TYschar;
		e->E2 = el_una(OPint8,tym,e2);
	    L2:
		tym |= e1->Ety & ~mTYbasic;
		e->E1 = el_selecte1(e1);
		e->E1->Ety = tym;
		e = optelem(e,TRUE);
	}
	else if (!boolres(e2))
	{
	    switch (e->Eoper)
	    {
		targ_int i;

		case OPle:		/* (u <= 0) becomes (u == 0)	*/
		    if (!uns)
			break;
		    /* FALL-THROUGH */
		case OPeqeq:
		    e->Eoper = OPnot;
		    goto L5;
		case OPgt:		/* (u > 0) becomes (u != 0)	*/
		    if (!uns)
			break;
		    /* FALL-THROUGH */
		case OPne:
		    e->Eoper = OPbool;
		L5: el_free(e2);
		    e->E2 = NULL;
		    e = optelem(e,TRUE);
		    break;

		case OPge:
		    i = 1;		/* (u >= 0) becomes (u,1)	*/
		    goto L3;
		case OPlt:		/* (u < 0) becomes (u,0)	*/
		    i = 0;
		L3:
		    if (uns)
		    {
			e2->EV.Vint = i;
			e2->Ety = TYint;
			e->Eoper = OPcomma;
			e = optelem(e,TRUE);
		    }
		    break;
	    }
	}
	else if (OPTIMIZER && uns && tysize(e2->Ety) == 2 &&
		 (unsigned short)e2->EV.Vuns == 0x8000 &&
		 (e->Eoper == OPlt || e->Eoper == OPge)
		)
	{	// Convert to signed comparison against 0
		tym_t ty;

		ty = tybasic(e2->Ety);
		switch (tysize[ty])
		{   case 1:	ty = TYschar;	break;
		    case 2:	ty = TYshort;	break;
		    default:	assert(0);
		}
		e->Eoper ^= (OPlt ^ OPge);	// switch between them
		e2->EV.Vuns = 0;
		e2->Ety = ty | (e2->Ety & ~mTYbasic);
		e1->Ety = ty | (e1->Ety & ~mTYbasic);
	}
	else if (OPTIMIZER && e1->Eoper == OPeq &&
		 e1->E2->Eoper == OPconst)
	{    // Convert ((x = c1) rel c2) to ((x = c1),(c1 rel c2)
	     elem *ec;

	     ec = el_copytree(e1->E2);
	     ec->Ety = e1->Ety;
	     e->E1 = ec;
	     e = el_bin(OPcomma,e->Ety,e1,e);
	     e = optelem(e,TRUE);
	}
  }
  else if ((
  	   (e1->Eoper == OPu8int || e1->Eoper == OPs8int) 
  	    || (e1->Eoper == OPu16_32 || e1->Eoper == OPshtlng)
	     ) && e1->Eoper == e2->Eoper)
  {	if (uns)
	{   e1->E1->Ety = touns(e1->E1->Ety);
	    e2->E1->Ety = touns(e2->E1->Ety);
	}
	e1->Ety = e1->E1->Ety;
	e2->Ety = e2->E1->Ety;
	e->E1 = el_selecte1(e1);
	e->E2 = el_selecte1(e2);
	e = optelem(e,TRUE);
  }
ret:
  return e;
}

/*****************************
 * Boolean operator.
 *	bool c => (bool c)
 *	bool logical_operator e => logical_operator e
 */

STATIC elem * elbool(elem *e)
{
    if (OTlogical(e->E1->Eoper) ||
	(tybasic(e->E1->Ety) == TYbool && tysize(e->Ety) == 1)
       )
	return el_selecte1(e);
    if (OPTIMIZER)
    {	elem *e1;

	/* Replace bool(x,1) with (x,1),1		*/
	e1 = elscancommas(e->E1);
	if (cnst(e1) || e1->Eoper == OPrelconst)
	{   int i;

	    i = boolres(e1) != 0;
	    e->Eoper = OPcomma;
	    e->E2 = el_int(e->Ety,i);
#if TX86
	    e = optelem(e,TRUE);
#else
	    e = elcomma(e);
	    //e = optelem(e,TRUE);
#endif
	}
    }
    return e;
}


/*********************************
 * Conversions of pointers to far pointers.
 */

STATIC elem * elptrlptr(elem *e)
{
    if (e->E1->Eoper == OPrelconst || e->E1->Eoper == OPstring)
    {
	e->E1->Ety = e->Ety;
	e = el_selecte1(e);
    }
    return e;
}

/*********************************
 * Conversions of handle pointers to far pointers.
 */

STATIC elem * elvptrfptr(elem *e)
{   elem *e1;
    elem *e12;
    int op;

    e1 = e->E1;
    if (e1->Eoper == OPadd || e1->Eoper == OPmin)
    {
	e12 = e1->E2;
	if (tybasic(e12->Ety) != TYvptr)
	{
	    /* Rewrite (vtof(e11 + e12)) to (vtof(e11) + e12)	*/
	    op = e->Eoper;
	    e->Eoper = e1->Eoper;
	    e->E2 = e12;
	    e1->Ety = e->Ety;
	    e1->Eoper = op;
	    e1->E2 = NULL;
	    e = optelem(e,TRUE);
	}
    }
    return e;
}

/************************
 * Optimize conversions of longs to ints.
 * Also used for (OPoffset) (TYfptr|TYvptr).
 * Also used for conversions of ints to bytes.
 */

STATIC elem * ellngsht(elem *e)
{ elem *e1;
  tym_t ty;
  T68000(unsigned short op = e->Eoper;)

  ty = e->Ety;
  e1 = e->E1;
  switch (e1->Eoper)
  { case OPshtlng:
    case OPu16_32:
    case OPu8int:
    case OPs8int:
	/* This fix is not quite right. For example, it fails	*/
	/* if e->Ety != e->E1->E1->Ety. The difference is when */
	/* one is unsigned and the other isn't.			*/
	if (tysize(ty) != tysize(e->E1->E1->Ety))
	    break;
	e = el_selecte1(el_selecte1(e));
	e->Ety = ty;
	return e;
    case OPvar:			/* simply paint type of variable */
#if TARGET_MAC
    	if(typtr(e1->Ety))
	    break;
#endif

	/* Do not paint type of ints into bytes, as this causes		*/
	/* many CSEs to be missed, resulting in bad code.		*/
	/* Loading a word anyway is just as fast as loading a byte.	*/
	/* for 68000 byte is swapped, load byte != load word */
	if (e->Eoper == OPint8)
	{
	    /* Mark symbol as being used sometimes as a byte to		*/
	    /* 80X86 - preclude using SI or DI				*/
	    /* 68000 - preclude using An				*/
	    e1->EV.sp.Vsym->Sflags |= GTbyte;
	}
#if TX86
	else
#endif
	    e1->Ety = ty;
	e = el_selecte1(e);
#if TARGET_MAC
	if (op != OPint8)
	    {
	    e->Ety = TYshort;
	    e->Eoffset += 2;	/* position to short within long */
	    }
	else
	    {
	    e->Ety = TYchar;
	    e->Eoffset += 1;	/* position to byte within short */
	    }
	break;
#else
	break;
    case OPind:
	e = el_selecte1(e);
	break;

    case OPptrlptr:
	if (e->Eoper != OPoffset)
	    goto case_default;
	// Replace (offset)(ptrlptr)e11 with e11
	e = el_selecte1(el_selecte1(e));
	e->Ety = ty;			// retain original type
	break;
#endif

    default: /* operator */
    case_default:
	/* Attempt to replace (lngsht)(a op b) with		*/
	/* ((lngsht)a op (lngsht)b).				*/
	/* op is now an integer op, which is cheaper.		*/
	if (OTwid(e1->Eoper) && !OTassign(e1->Eoper))
	{   tym_t ty1;

	    ty1 = e1->E1->Ety;
	    switch (e->Eoper)
	    {	case OPint8:
		    /* Make sure e1->E1 is of the type we're converting from */
		    if (tysize(ty1) <= T80x86(intsize) T68000(SHORTSIZE))
		    {
			ty1 = (tyuns(ty1) ? TYuchar : TYschar) |
				    (ty1 & ~mTYbasic);
			e1->E1 = el_una(e->Eoper,ty1,e1->E1);
			T68000(e1->E1 = ellngsht(e1->E1));
			    		// eliminate conversion op if possible here
		    }
		    /* Rvalue may be an int if it is a shift operator */
		    if (OTbinary(e1->Eoper))
		    {   tym_t ty2 = e1->E2->Ety;

			if (tysize(ty2) <= T80x86(intsize) T68000(SHORTSIZE))
			{
			    ty2 = (tyuns(ty2) ? TYuchar : TYschar) |
					(ty2 & ~mTYbasic);
			    e1->E2 = el_una(e->Eoper,ty2,e1->E2);
			    T68000(e1->E2 = ellngsht(e1->E2));
			    		// eliminate conversion op if possible here
			}
		    }
		    break;
#if TX86
		case OPoffset:
		    if (intsize == LONGSIZE)
		    {
			/* Make sure e1->E1 is of the type we're converting from */
			if (tysize(ty1) > LONGSIZE)
			{
			    ty1 = (tyuns(ty1) ? TYuint : TYint) | (ty1 & ~mTYbasic);
			    e1->E1 = el_una(e->Eoper,ty1,e1->E1);
			}
			/* Rvalue may be an int if it is a shift operator */
			if (OTbinary(e1->Eoper))
			{   tym_t ty2 = e1->E2->Ety;

			    if (tysize(ty2) > LONGSIZE)
			    {
				ty2 = (tyuns(ty2) ? TYuint : TYint) |
					    (ty2 & ~mTYbasic);
				e1->E2 = el_una(e->Eoper,ty2,e1->E2);
			    }
			}
			break;
		    }
		    /* FALL-THROUGH */
#endif
		case OPlngsht:
		    /* Make sure e1->E1 is of the type we're converting from */
		    if (tysize(ty1) == LONGSIZE)
		    {
			ty1 = (tyuns(ty1) ? TYushort : TYshort) | (ty1 & ~mTYbasic);
			e1->E1 = el_una(e->Eoper,ty1,e1->E1);
			T68000(e1->E1 = ellngsht(e1->E1));
			    		// eliminate conversion op if possible here
		    }
		    /* Rvalue may be an int if it is a shift operator */
		    if (OTbinary(e1->Eoper))
		    {   tym_t ty2 = e1->E2->Ety;

			if (tysize(ty2) == LONGSIZE)
			{
			    ty2 = (tyuns(ty2) ? TYushort : TYshort) |
					(ty2 & ~mTYbasic);
			    e1->E2 = el_una(e->Eoper,ty2,e1->E2);
			    T68000(e1->E2 = ellngsht(e1->E2));
			    		// eliminate conversion op if possible here
			}
		    }
		    break;
		default:
		    assert(0);
	    }
	    e1->Ety = ty;
	    e = el_selecte1(e);
	    again = 1;
	    return e;
	}
	break;
  }
  return e;
}


/************************
 * Optimize conversions of long longs to ints.
 * OP64_32
 */

STATIC elem * el64_32(elem *e)
{ elem *e1;
  tym_t ty;

  ty = e->Ety;
  e1 = e->E1;
  switch (e1->Eoper)
  {
    case OPs32_64:
    case OPu32_64:
	if (tysize(ty) != tysize(e->E1->E1->Ety))
	    break;
	e = el_selecte1(el_selecte1(e));
	e->Ety = ty;
	break;

    case OPvar:			// simply paint type of variable
    case OPind:
	e = el_selecte1(e);
	break;

    case OPshr:			// OP64_32(x >> 32) => OPmsw(x)
	if (e1->E2->Eoper == OPconst &&
	    el_tolong(e1->E2) == 32)
	{
	    e->Eoper = OPmsw;
	    e->E1 = el_selecte1(e->E1);
	}
	break;
  }
  return e;
}


/*******************************
 * Convert complex to real.
 */

STATIC elem *elc_r(elem *e)
{
    elem *e1 = e->E1;

    if (e1->Eoper == OPvar || e1->Eoper == OPind)
    {
	e1->Ety = e->Ety;
	e = el_selecte1(e);
    }
    return e;
}

/*******************************
 * Convert complex to imaginary.
 */

STATIC elem *elc_i(elem *e)
{
    elem *e1 = e->E1;

    if (e1->Eoper == OPvar)
    {
	e1->Ety = e->Ety;
	e1->EV.sp.Voffset += tysize(e->Ety);
	e = el_selecte1(e);
    }
    else if (e1->Eoper == OPind)
    {
	e1->Ety = e->Ety;
	e = el_selecte1(e);
	e->E1 = el_bin(OPadd, e->E1->Ety, e->E1, el_long(TYint, tysize(e->Ety)));
	return optelem(e, TRUE);
    }

    return e;
}

/******************************
 * Handle OPu8int and OPs8int.
 */

STATIC elem * elbyteint(elem *e)
{
    if (OTlogical(e->E1->Eoper))
    {
	e->E1->Ety = e->Ety;
	e = el_selecte1(e);
    }
    return e;
}

/************************
 * Handle <<
 */

STATIC elem *elshl(elem *e)
{
    if (e->E1->Eoper == OPconst && !boolres(e->E1))		// if e1 is 0
    {	e->E1->Ety = e->Ety;
	e = el_selecte1(e);		// (0 << e2) => 0
    }
    return e;
}

/************************
 * Handle >>
 * OPshr, OPashr
 */

STATIC elem * elshr(elem *e)
{
#if TX86
    elem *e1;
    elem *e2;
    tym_t ty;

    ty = e->Ety;
    e1 = e->E1;
    e2 = e->E2;

    // (x >> 16) replaced with ((shtlng) x+2)
    if (OPTIMIZER &&
	e2->Eoper == OPconst && e2->EV.Vshort == SHORTSIZE * 8 &&
	tysize(ty) == LONGSIZE)
    {
	if (e1->Eoper == OPvar)
	{
	    Symbol *s = e1->EV.sp.Vsym;

	    if (s->Sclass != SCfastpar)
	    {
		e1->EV.sp.Voffset += SHORTSIZE;	// address high word in long
		if (I32)
		    // Cannot independently address high word of register
		    s->Sflags &= ~GTregcand;
		goto L1;
	    }
	}
	else if (e1->Eoper == OPind)
	{
	    /* Replace (*p >> 16) with (shtlng)(*(&*p + 2))	*/
	    e->E1 = el_una(OPind,TYshort,
			el_bin(OPadd,e1->E1->Ety,
				el_una(OPaddr,e1->E1->Ety,e1),
				el_int(TYint,SHORTSIZE)));
	L1:
	    e->Eoper = tyuns(e1->Ety) ? OPu16_32 : OPshtlng;
	    el_free(e2);
	    e->E2 = NULL;
	    e1->Ety = TYshort;
	    e = optelem(e,TRUE);
	}
    }

    // (x >> 32) replaced with ((lngllng) x+4)
    if (e2->Eoper == OPconst && e2->EV.Vlong == LONGSIZE * 8 &&
	tysize(ty) == LLONGSIZE)
    {
	if (e1->Eoper == OPvar)
	{
	    e1->EV.sp.Voffset += LONGSIZE;	// address high dword in longlong
	    if (I64)
		// Cannot independently address high word of register
		e1->EV.sp.Vsym->Sflags &= ~GTregcand;
	    goto L2;
	}
	else if (e1->Eoper == OPind)
	{
	    // Replace (*p >> 32) with (lngllng)(*(&*p + 4))
	    e->E1 = el_una(OPind,TYlong,
			el_bin(OPadd,e1->E1->Ety,
				el_una(OPaddr,e1->E1->Ety,e1),
				el_int(TYint,LONGSIZE)));
	L2:
	    e->Eoper = tyuns(e1->Ety) ? OPu32_64 : OPs32_64;
	    el_free(e2);
	    e->E2 = NULL;
	    e1->Ety = TYlong;
	    e = optelem(e,TRUE);
	}
    }
#endif
  return e;
}

/***********************************
 * Handle OPpair, OPrpair.
 */

elem *elpair(elem *e)
{
    elem *e1;

    //printf("elpair()\n");
    e1 = e->E1;
    if (e1->Eoper == OPconst)
    {
	e->E1 = e->E2;
	e->E2 = e1;
	e->Eoper ^= OPpair ^ OPrpair;
    }
    return e;
}

/********************************
 * Handle OPinfo, OPmark, OPctor, OPdtor
 */

STATIC elem * elinfo(elem *e)
{
    //printf("elinfo()\n");
#if NTEXCEPTIONS
    if (funcsym_p->Sfunc->Fflags3 & Fnteh)
    {	// Eliminate cleanup info if using NT structured EH
	if (e->Eoper == OPinfo)
	    e = el_selecte2(e);
	else
	{   el_free(e);
	    e = el_long(TYint,0);
	}
    }
#endif
    return e;
}

/********************************************
 */

STATIC elem * elhstring(elem *e)
{
    return e;
}

/********************************************
 */

STATIC elem * elnullcheck(elem *e)
{
    return e;
}


/********************************************
 */

STATIC elem * elclassinit(elem *e)
{
    return e;
}

/********************************************
 */

STATIC elem * elnewarray(elem *e)
{
    return e;
}

/********************************************
 */

STATIC elem * elmultinewarray(elem *e)
{
    return e;
}

/********************************************
 */

STATIC elem * elinstanceof(elem *e)
{
    return e;
}

/********************************************
 */

STATIC elem * elfinalinstanceof(elem *e)
{
    return e;
}

/********************************************
 */

STATIC elem * elcheckcast(elem *e)
{
    return e;
}

/********************************************
 */

STATIC elem * elarraylength(elem *e)
{
    return e;
}

/********************************************
 */

STATIC elem * elarray(elem *e)
{
    return e;
}

/********************************************
 */

STATIC elem * elfield(elem *e)
{
    return e;
}

/******************************************
 * OPparam
 */

STATIC void elparamx(elem *e)
{
    elem *ex;

    //printf("elparam()\n");
    if (e->E1->Eoper == OPrpair)
    {
	e->E1->Eoper = OPparam;
    }
    else if (e->E1->Eoper == OPpair && !el_sideeffect(e->E1))
    {
	e->E1->Eoper = OPparam;
	ex = e->E1->E2;
	e->E1->E2 = e->E1->E1;
	e->E1->E1 = ex;
    }
#if 0
    // Unfortunately, these don't work because if the last parameter
    // is a pair, and it is a D function, the last parameter will get
    // passed in EAX.
    else if (e->E2->Eoper == OPrpair)
    {
	e->E2->Eoper = OPparam;
    }
    else if (e->E2->Eoper == OPpair)
    {
	e->E2->Eoper = OPparam;
	ex = e->E2->E2;
	e->E2->E2 = e->E2->E1;
	e->E2->E1 = ex;
    }
#endif
}

STATIC elem * elparam(elem *e)
{
    if (!OPTIMIZER)
    {
	elparamx(e);
    }
    return e;
}

/********************************
 * Optimize an element. This routine is recursive!
 * Be careful not to do this if VBEs have been done (else the VBE
 * work will be undone), or it DAGs have been built (will crash if
 * there is more than one parent for an elem).
 * If (goal)
 *	we care about the result.
 */

STATIC elem * optelem(elem *e,HINT goal)
{ elem *e1,*e2;
  unsigned op;
#if TX86
  static
#endif
  #include "gen/elxxx.cpp"			/* jump table			*/

beg:
#if MARS
    util_progress();
#else
    if (controlc_saw)
	util_exit(EXIT_BREAK);
#endif
    //{	dbg_printf("xoptelem: %p ",e); WROP(e->Eoper); dbg_printf("\n"); }
    assert(e);
    elem_debug(e);
    assert(e->Ecount == 0);		// no CSEs

    if (OPTIMIZER)
    {
	if (goal)
	    e->Nflags &= ~NFLnogoal;
	else
	    e->Nflags |= NFLnogoal;
    }

    op = e->Eoper;
    if (OTleaf(op))			// if not an operator node
    {
#if 0
	if (
#if TARGET_POWERPC
	    // this is to change float and double consts to OPrelconst
	    // as in OPstring
	    || op == OPconst
#endif
	   )
	    goto L1;
#endif
	if (goal || OTsideff(op) || e->Ety & mTYvolatile)
	{
	    return e;
	}
	else
	{
	    retnull:
		el_free(e);
		return NULL;
	}
    }
    else if (OTbinary(op))		// if binary operator
    {	HINT leftgoal,rightgoal;

	/* Determine goals for left and right subtrees	*/
	rightgoal = (goal || OTsideff(op));
	switch (op)
	{   case OPcomma:
		e1 = e->E1 = optelem(e->E1,FALSE);
		e2 = e->E2 = optelem(e->E2,rightgoal);
		if (!e1)
		{   if (!e2)
			goto retnull;
		    if (!goal)
			e->Ety = e->E2->Ety;
		    e = el_selecte2(e);
		    return e;
		}
		if (!e2)
		{   e->Ety = e->E1->Ety;
		    return el_selecte1(e);
		}
		if (!goal)
		    e->Ety = e2->Ety;
		return e;

	    case OPcond:
		if (!goal)
		{   // Transform x?y:z into x&&y or x||z
		    if (!el_sideeffect(e->E2->E1))
		    {	e->Eoper = OPoror;
			e->E2 = el_selecte2(e->E2);
			e->Ety = TYint;
			goto beg;
		    }
		    else if (!el_sideeffect(e->E2->E2))
		    {	e->Eoper = OPandand;
			e->E2 = el_selecte1(e->E2);
			e->Ety = TYint;
			goto beg;
		    }
		}
		goto Llog;

	    case OPandand:
	    case OPoror:	/* case (c || f()) with no goal		*/
	    Llog:
		if (goal || el_sideeffect(e->E2))
		    leftgoal = TRUE;
		break;

	    default:
		leftgoal = rightgoal;
		break;
	    case OPcolon:
	    case OPcolon2:
		if (!goal && !el_sideeffect(e))
		    goto retnull;
		leftgoal = rightgoal;
		break;
#if TX86
	    case OPmemcmp:
		if (!goal)
		{   // So OPmemcmp is removed cleanly
		    assert(e->E1->Eoper == OPparam);
		    e->E1->Eoper = OPcomma;
		}
		leftgoal = rightgoal;
		break;
#endif
	}

	e1 = e->E1;
	if (OTassign(op))
	{   elem *ex = e1;

	    while (OTconv(ex->Eoper))
		ex = ex->E1;
	    if (ex->Eoper == OPbit)
		ex->E1 = optelem(ex->E1, leftgoal);
	    else
		e1 = e->E1 = optelem(e1,leftgoal);
	}
	else
	    e1 = e->E1 = optelem(e1,leftgoal);

	e2 = e->E2 = optelem(e->E2,rightgoal);
	if (!e1)
	{   if (!e2)
		goto retnull;
	    return el_selecte2(e);
	}
	if (!e2)
	{
	    if (!leftgoal)
		e->Ety = e1->Ety;
	    return el_selecte1(e);
	}

	if (cnst(e1) && cnst(e2))
	{
	    e = evalu8(e);
	    return e;
	}
	if (OPTIMIZER)
	{
	  if (OTassoc(op))
	  {
	    /* Replace (a op1 (b op2 c)) with ((a op2 b) op1 c)
	       (this must come before the leaf swapping, or we could cause
	       infinite loops)
	     */
	    if (e2->Eoper == op &&
		e2->E2->Eoper == OPconst &&
		tysize(e2->E1->Ety) == tysize(e2->E2->Ety) &&
		(!tyfloating(e1->Ety) || e1->Ety == e2->Ety)
	       )
	    {
	      e->E1 = e2;
	      e->E2 = e2->E2;
	      e2->E2 = e2->E1;
	      e2->E1 = e1;
	      if (op == OPadd)	/* fix types			*/
	      {
		  e1 = e->E1;
		  if (typtr(e1->E2->Ety))
		      e1->Ety = e1->E2->Ety;
		  else
		      /* suppose a and b are ints, and c is a pointer	*/
		      /* then this will fix the type of op2 to be int	*/
		      e1->Ety = e1->E1->Ety;
	      }
	      goto beg;
	    }

	    // Replace ((a op c1) op c2) with (a op (c2 op c1))
	    if (e1->Eoper == op &&
		e2->Eoper == OPconst &&
		e1->E2->Eoper == OPconst &&
		e1->E1->Eoper != OPconst &&
		tysize(e2->Ety) == tysize(e1->E2->Ety))
	    {
		e->E1 = e1->E1;
		e1->E1 = e2;
		e1->Ety = e2->Ety;
		e->E2 = e1;

		if (tyfloating(e1->Ety))
		{
		    e1 = evalu8(e1);
		    if (EOP(e1))	// if failed to fold the constants
		    {	// Undo the changes so we don't infinite loop
			e->E2 = e1->E1;
			e1->E1 = e->E1;
			e->E1 = e1;
		    }
		    else
		    {	e->E2 = e1;
			goto beg;
		    }
		}
		else
		    goto beg;
	    }
	  }

	  if (!OTrtol(op) && op != OPparam && op != OPcolon && op != OPcolon2 &&
	      e1->Eoper == OPcomma)
	  {	// Convert ((a,b) op c) to (a,(b op c))
		e1->Ety = e->Ety;
		e->E1 = e1->E2;
		e1->E2 = e;
		e = e1;
		goto beg;
	  }
	}

	if (OTcommut(op))		 // if commutative
	{
	      /* see if we should swap the leaves	*/
#if 0
	      if (tyfloating(e1->Ety))
	      {
		    if (fcost(e2) > fcost(e1))
		    {	e->E1 = e2;
			e2 = e->E2 = e1;
			e1 = e->E1;		// reverse the leaves
			op = e->Eoper = swaprel(op);
		    }
	      }
	      else
#endif
	      if (
#if MARS
		cost(e2) > cost(e1)
		/* Swap only if order of evaluation can be proved
		 * to not matter, as we must evaluate Left-to-Right
		 */
		&& (e1->Eoper == OPconst ||
		    e1->Eoper == OPrelconst ||
		    /* Local variables that are not aliased
		     * and are not assigned to in e2
		     */
		    (e1->Eoper == OPvar && e1->EV.sp.Vsym->Sflags & SFLunambig && !el_appears(e2,e1->EV.sp.Vsym)) ||
		    !(el_sideeffect(e1) || el_sideeffect(e2))
		   )
#else
		cost(e2) > cost(e1)
#endif
		 )
	      {
		    e->E1 = e2;
		    e2 = e->E2 = e1;
		    e1 = e->E1;		// reverse the leaves
		    op = e->Eoper = swaprel(op);
	      }
	      if (OTassoc(op))		// if commutative and associative
	      {
		  if (EOP(e1) &&
		      op == e1->Eoper &&
		      e1->E2->Eoper == OPconst &&
		      e->Ety == e1->Ety &&
		      tysize(e1->E2->Ety) == tysize(e2->Ety)
#if MARS
		      // Reordering floating point can change the semantics
		      && !tyfloating(e1->Ety)
#endif
		     )
		  {
			// look for ((e op c1) op c2),
			// replace with (e op (c1 op c2))
			if (e2->Eoper == OPconst)
			{
			    e->E1 = e1->E1;
			    e->E2 = e1;
			    e1->E1 = e1->E2;
			    e1->E2 = e2;
			    e1->Ety = e2->Ety;

			    e1 = e->E1;
			    e2 = e->E2 = evalu8(e->E2);
			}
			else
			{   // Replace ((e op c) op e2) with ((e op e2) op c)
			    e->E2 = e1->E2;
			    e1->E2 = e2;
			    e2 = e->E2;
			}
		  }
	      }
	}

	if (e2->Eoper == OPconst &&		// if right operand is a constant
	    !(OTopeq(op) && OTconv(e1->Eoper))
	   )
	{
#ifdef DEBUG
	    assert(!(OTeop0e(op) && (OTeop00(op))));
#endif
	    if (OTeop0e(op))		/* if e1 op 0 => e1		*/
	    {
		if (!boolres(e2))	/* if e2 is 0			*/
		{
		    // Don't do it for ANSI floating point
		    if (tyfloating(e1->Ety) && !(config.flags4 & CFG4fastfloat))
			;
		    // Don't do it if we're assembling a complex value
		    else if ((tytab[e->E1->Ety & 0xFF] ^
			 tytab[e->E2->Ety & 0xFF]) == (TYFLreal | TYFLimaginary))
			;
		    else
			return optelem(el_selecte1(e),goal);
		}
	    }
	    else if (OTeop00(op) && !boolres(e2) && !tyfloating(e->Ety))
	    {	if (OTassign(op))
		    op = e->Eoper = OPeq;
		else
		    op = e->Eoper = OPcomma;
	    }
	    if (OTeop1e(op))		/* if e1 op 1 => e1		*/
	    {
		if (elemisone(e2) && !tyimaginary(e2->Ety))
		    return optelem(el_selecte1(e),goal);
	    }
	}

	if (OTpost(op) && !goal)
	{   op = e->Eoper = (op == OPpostinc) ? OPaddass : OPminass;
#if TARGET_MAC
	    if (tybasic(e->Ety) == TYdouble)
	    {	e->E1 = el_una(OPf_d,TYldouble,e->E1);
		goto beg;
	    }
	    if (tybasic(e->Ety) == TYfloat)
	    {	e->E1 = el_una(OPsfltdbl,TYldouble,e->E1);
		goto beg;
	    }
#endif
	}
  }
  else /* unary operator */
  {
	assert(!e->E2 || op == OPinfo || op == OParraylength);
	if (!goal && !OTsideff(op))
	{
	    tym_t tym = e->E1->Ety;

	    e = el_selecte1(e);
	    e->Ety = tym;
	    return optelem(e,FALSE);
	}

	e1 = e->E1 = optelem(e->E1,TRUE);
	if (e1->Eoper == OPconst)
	{
#if TARGET_POWERPC
		// this is to make sure that if the evalu8ed const is a float it will be properly
		// generated as an initialized static var
		return optelem(evalu8(e), goal);
#else
#if TX86
	    if (!(op == OPptrlptr && el_tolong(e1) != 0))
#endif
		return evalu8(e);
#endif
	}
	e2 = NULL;
  }

L1:
#ifdef DEBUG
//  if (debugb)
//  {	dbg_printf("optelem: %p ",e); WROP(op); dbg_printf("\n"); }
#endif

  expgoal = goal;
#if 0
    {	dbg_printf("xoptelem: %p ",e); WROP(e->Eoper); dbg_printf("\n"); }
  elem_print(e);
  e = (*elxxx[op])(e);
  printf("After:\n");
  elem_print(e);
  return e;
#else
  return (*elxxx[op])(e);
#endif
}

/********************************
 * Optimize and canonicalize an expression tree.
 * Fiddle with double operators so that the rvalue is a pointer
 * (this is needed by the 8086 code generator).
 *
 *	   op			   op
 *	  /  \			  /  \
 *	e1    e2		e1    ,
 *				     / \
 *				    =   &
 *				   / \	 \
 *				 fr   e2  fr
 *
 *	e1 op (*p)		e1 op p
 *	e1 op c			e1 op &dc
 *	e1 op v			e1 op &v
 */

elem *doptelem(elem *e,HINT goal)
{
    //printf("doptelem()\n");
#if TARGET_MAC
    extern int tree_b,tree_a;
    if(tree_b)
    {	dbg_printf("Before optimizing\n");
	elem_print(e);
    }
#endif
    cgelem_goal = goal;

    assert(!PARSER);
    do
    {	again = 0;
	e = optelem(e,goal & (GOALflags | GOALvalue | GOALnone));
    } while (again && goal & GOALagain && e);

#if TARGET_MAC
    if(tree_a)
    {	dbg_printf("After optimizing\n");
	elem_print(e);
    }
#endif

    /* If entire expression is a struct, and we can replace it with	*/
    /* something simpler, do so.					*/
    if (goal & GOALstruct && e && tybasic(e->Ety) == TYstruct)
	e = elstruct(e);

    return e;
}

/****************************************
 * Do optimizations after bltailrecursion() and before common subexpressions.
 */

void postoptelem(elem *e)
{
    elem_debug(e);
    while (1)
    {
	if (OTunary(e->Eoper))
	    e = e->E1;
	else if (OTbinary(e->Eoper))
	{   if (e->Eoper == OPparam)
	    {
		elparamx(e);
	    }
	    postoptelem(e->E2);
	    e = e->E1;
	}
	else
	    break;
    }
}

#endif // !SPP
